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9780735423190
AIP Publishing
20210602162509.0
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9780735423169
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9780735423176
epub
9780735423183
epdf
10.1063/9780735423190
doi
2021932213
SCI063000
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EDU029000
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Grimes, Alisa
Honoring Teachers As Professionals
Stories and Pathways for Growth in Your Classroom and Career
Alisa Grimes; Nicole Schrode; Rebecca Stober; Shannon Wachowski
Melville, New York
AIP Publishing
2021
online resource (168 pages)
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Fostering Community and Collaboration — Cultivating Confidence and
Professionalism — Conducting Educational Research — Impacting Education Policy — Empowering
Students — Becoming an Agent of Change.
Honoring Teachers As Professionals: Stories and Pathways
for Growth in Your Classroom and Career is a guide for retaining and engaging educators using
classroom educational research methods. It introduces the process to become a published
educational researcher; adopt and develop creative, inductive curricula; empower students; and
build community as a pathway towards leadership in the educational fi eld. By conducting
purposeful, peer-reviewed research, this work shows how personal and pedagogical changes have
transformed classrooms into spaces where students can feel empowered and induce scientific
concepts. This book's strengths include the interlacing of theory with practice, honoring
education as a professional field using language that easily connects with both novice and
experienced teachers. Other key features include: -- Approachable, narrative, and anecdotal
writing style -- Guidance to help address low retention rates and job satisfaction among
teachers -- Discussion about fostering a sense of community among teachers, and how to approach
the building of such communities This book is for administrators, researchers, teachers, and
other professionals in education. It is a valuable resource for graduate students in education,
policy advocates, and parents.
Science / Study & Teaching
bisacsh
Education / Teaching Methods and Materials
bisacsh
Schrode, Nicole, Stober, Rebecca, Wachowski, Shannon
Printed edition
9780735423169
https://doi.org/10.1063/9780735423190
00160nam a22000615u 4500
9780735423756
AIP Publishing
20211028013573.0
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9780735423725
paperback
9780735423732
epub
9780735423749
epdf
10.1063/9780735423756
doi
2021943553
SCI063000
bisacsh
Lock, Frank
Cliff's Nodes with Appreciations
Frank Lock
Melville, New York
AIP Publishing
2021
online resource (220 pages)
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The Challenges of Teaching — Teaching Strategies — Challenges Faced by
Students — Course Content — Curriculum and Instruction — The Way It Used to Be — Relationship
with Nature — Science and Society.
Cliff's Nodes with Appreciations provides updated
commentary and analysis on Cliff Swartz's editorials written while editor of the journal The
Physics Teacher (AIP Publishing). These articles provide the basis for an updated look at
physics education, the anti-science surge, and the importance of learning science by practicing
science. This book provides new insights including: -- The past and future of physics pedagogy
and the intrinsic rewards of studying physics -- Updated, critical analysis and modern context
for current teachers written in an easy-toread, appealing style -- Relating physics education
strategies to practices used in the corporate world Cliff's Nodes with Appreciations is a useful
resource for teachers focused on science education and will benefit both early career teachers
and those with extensive experience.
SCIENCE / Study & Teaching
bisacsh
Printed edition
9780735423725
https://doi.org/10.1063/9780735423756
00160nam a22000615u 4500
9780735423503
AIP Publishing
20211110014494.0
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9780735423510
paperback
9780735423497
epub
9780735423480
epdf
10.1063/9780735423503
doi
2021943555
SCI055000
bisacsh
SCI028000
bisacsh
SCI063000
bisacsh
Mårtensson-Pendrill, Ann-Marie
Physics for the Whole Body in Playgrounds and Amusement Parks
Ann-Marie Mårtensson-Pendrill
Melville, New York
AIP Publishing
2021
online resource (338 pages)
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Newton's Laws: Motion and Forces — Acceleration and Newton's Second Law —
Circular Motion in a Horizontal Plane — Rotation — Circular Motion on a Vertical Plane — Energy
Transformations — Pendulum Rides — Roller Coasters in Physics Education — Illusions — Technology
and Safety — Physics on a Playground — Educational Visits to Amusement Parks.
There are many laws of physics involved in the design and
operation of roller coasters, carousels, and other amusement rides. Physics for the Whole Body
in Playgrounds and Amusement Parks teaches these concepts in an exciting and approachable way by
linking them with students’ personal experiences of rides in amusement parks. This unique book
features: -- Immersive elements to learn scientific principles using students’ first-hand
experiences of how forces act in different types of motion -- Challenging questions for
discussion, simple experiments, and exciting classroom demonstrations -- Numerous illustrations
and video materials that bring the lessons to life and teach the concepts of force and motion in
a more stimulating way This book is a must for teachers of physics at the advanced high school
level and for undergraduate students needing a refresher course in Newton's laws. Rollercoaster
enthusiasts will also find the book a stimulating read.
SCIENCE / Physics / General
bisacsh
SCIENCE / Experiments & Projects
bisacsh
SCIENCE / Study … Teaching
bisacsh
Printed edition
9780735423510
https://doi.org/10.1063/9780735423503
00160nam a22000615u 45009780735423831AIP Publishing20211222022430.0cr mn |||mna||211222t2021||||nyu||||gs 0|| 0|eng d9780735423800paperback9780735423817epub9780735423824epdf10.1063/9780735423831doi2021943806EDU037000bisacshSCI063000bisacshBIO015000bisacshMcDermott, Lillian C.A View From Physics
Discipline-Based Education ResearchLillian C. McDermottMelville, New YorkAIP Publishing2021online resource (216 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierThe Path to Physics Education Research at the University of Washington — Experience with K–12 Teachers and Underprepared Students — Starting a Ph.D. Program in PER at the University of Washington — Building the PEG and the Field of PER Together — Research-Based Curriculum Development: Physics by Inquiry — Inspiration and Reflections: Teachers Speak about the Physics for Teachers Program at UW — Developing and Learning from Tutorials in Introductory Physics — Growth and Influence of the Physics Education Group at the University of Washington — Building a Field: Institutional Support, Publishing, and Networks — Conclusion.A View From Physics: Discipline-Based Education Research presents the author’s account as one of the founders of the field of physics education research, the scientific study of the teaching and learning of physics. The hallmark of this relatively new field is the use of rigorous analytical and quantitative study to develop more effective curriculum and validate its efficacy. This unique title features:
-- The founder’s personal history of building the world-renowned Physics Education Group at the University of Washington, Seattle, Washington, USA
-- An outline of the growth of physics education research, including discussions of current topics
-- A chronicle of the author’s pioneering career as one of the few women in physics during the mid-20th century and her lasting impact on physics education
A View From Physics: Discipline-Based Education Research offers insights and perspectives for university physics faculty, physics education researchers, secondary school physics/physical science teachers, and those interested in science education more broadly. This book is also for those interested in the history of women in science.EDUCATION / ResearchbisacshSCIENCE / Study & TeachingbisacshBIOGRAPHY & AUTOBIOGRAPHY / Science & TechnologybisacshPrinted edition 9780735423800https://doi.org/10.1063/9780735423831
00160nam a22000615u 45009780735422865AIP Publishing20211227019064.0cr mn |||mna||211227t2021||||nyu||||gs 0|| 0|eng d9780735422834paperback9780735422841epub9780735422858epdf10.1063/9780735422865doi2021945038TEC027000bisacshTEC063000bisacshTEC021020bisacshChakraverty, SnehashishNano Scaled Structural Problems
Static and Dynamic BehaviorsSnehashish Chakraverty: Edited by Snehashish ChakravertyMelville, New YorkAIP Publishing2021online resource (266 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierNano Scaled Structural Problems: Static and Dynamic Behaviors presents a comprehensive treatment of theoretical concepts, experimental ideas, computational methods, and the complicating effects of static and dynamical behaviors in nanostructures. A timely addition to the field, this resource summarizes the state-of-the-art in the field of structural static and dynamic problems of nanomaterials and also covers structural damping and vibration control in nanoscale scenarios. This edited collection brings together top experts to cover this topic in one resource on a subject mostly covered by a variety of journal and review articles. This book:
-- Features a broad overview of static and dynamic behaviors of nanoscaled structural problems
-- Presents computationally efficient methods and experimental ideas to understand the static and dynamical behaviors of nanostructures
-- Addresses structural damping and vibration control in nanoscale scenario
-- Includes viscosity measurement for pico-liter liquid volumes, multiscale modeling, and molecular dynamic simulations
-- Investigates dynamical behaviors of nanostructural members with complicating effect
Researchers, undergraduate students, and graduate students as well as industry professionals will find this edited collection useful. The book may also be used for teaching classical and advanced nanostructural static and dynamics concepts to students and researchers.TECHNOLOGY & ENGINEERING / Nanotechnology & MEMSbisacshTECHNOLOGY & ENGINEERING / StructuralbisacshTECHNOLOGY & ENGINEERING / Materials Science/Electronic MaterialsbisacshPrinted edition 9780735422834https://doi.org/10.1063/9780735422865
00160nam a22000615u 45009780735424074AIP Publishing20220122009082.0cr mn |||mna||220125t2022||||nyu||||gs 0|| 0|eng d9780735424043paperback9780735424050epub9780735424067epdf10.1063/9780735424074doi2021947655SCI053000bisacshSCI057000bisacshAsavanant, WaritOptical Quantum ComputersA Route to Practical Continuous Variable Quantum Information ProcessingWarit Asavanant; Akira FurusawaMelville, New YorkAIP Publishing2022online resource (224 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierThis book is a current and rare treatment of the theoretical and experimental aspects of one of the most promising approaches to quantum computation—continuous-variable (CV) quantum computation using optical systems. In addition to its pedagogical value to those new to quantum computing, it is also a practical handbook for both experimentalists and theorists working in the field. Optical Quantum Computers: A Route to Practical Continuous Variable Quantum Information Processing summarizes many recent experimental developments and fills a gap in current literature. This timely book:-- Provides up-to-date discussions based on experiments and expertise of the scientists building quantum computers; -- Centers around the idea of time-domain quantum computation;-- Highlights work by the team from the Furusawa–Yoshikawa Laboratory at The University of Tokyo—one of the leading quantum computing labs in the world. Researchers, graduate students, and those working in the quantum computing industry and its related fi elds will fi nd this an invaluable resource.Science / Physics/Optics & LightbisacshScience / Physics/Quantum TheorybisacshFurusawa, AkiraPrinted edition 9780735424043https://doi.org/10.1063/9780735424074
00160nam a22000615u 45009780735423916AIP Publishing20220228020392.0cr mn |||mna||220302t2022||||nyu||||gs 0|| 0|eng d9780735423886paperback9780735423893epub9780735423909epdf10.1063/9780735423916doi2021944156TEC055000bisacshTEC020000bisacshSCI097000bisacshPatel, Vinay KumarTrends in Fabrication of Polymers and Polymer CompositesVinay Kumar Patel; Rishi Kant; Pankaj Singh Chauhan; Shantanu Bhattacharya: Edited by Vinay Kumar Patel; Rishi Kant; Pankaj Singh Chauhan; Shantanu BhattacharyaMelville, New YorkAIP Publishing2022online resource (284 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction to the Fabrication of Polymers and Polymeric Composites — Polymer Fabrication Using Photochemical Processes—A Review — Laser-Assisted Fabrication of Polymers by Pushing Down the Limit of Resolution — Advances in Polymer Materials and Composites for Additive Manufacturing — Polymer Microfabrication for Biomedical Applications — Extraction, Fabrication, and Mechanical Aspects in Composites of Bamboo Fiber — Recent Advances in Fabrication and Characterization of Nanofiller Filled Epoxy Nanocomposites — Synthesis of Catalyst-Free Carbon Nano Onions (CNOs) for Advanced Functional Materials — Recent Trends in the Manufacturing of Reduced Graphene Oxide Modified Epoxy Nanocomposites as Advanced Functional Material — Importance of Chemically Treated Natural Fibers in the Fabrication of Natural Fiber Reinforced Polymer Composites.This book provides an in-depth review and discussion of the various fabrication technologies of polymers and polymer composites, including photochemical processes, laser-assisted methods, and additive manufacturing/3D printing. It covers the basic principles and protocols of polymer composite fabrication techniques, including synthesis, fabrication, characterization, and manufacturability. The book emphasizes the importance of nanofillers as reinforcements or additives, highlighting the nanotechnology trends in polymer fabrication. Trends in Fabrication of Polymers and Polymer Composites provides:
-- Real-life problem-solving techniques for biomedical devices and systems, aerospace, automobiles, and flexible electronics and printing
-- A review of various fabrication methods including bamboo fibers, chemical treatments of natural fibers, nanofilled epoxy, carbon nano-onions (CNOs) filled polymer composites, reduced graphene oxide(rGO)/epoxy, and natural fiber reinforced polymer composites
Research professionals, postdoctoral researchers, graduate students engaged in polymer-related research areas, and material scientists will find this an invaluable resource.TECHNOLOGY & ENGINEERING / Textiles & PolymersbisacshTECHNOLOGY & ENGINEERING / ManufacturingbisacshSCIENCE / Physics/PolymerbisacshKant, Rishi, Chauhan, Pankaj Singh, Bhattacharya, ShantanuPrinted edition 9780735423886https://doi.org/10.1063/9780735423916
00160nam a22000615u 45009780735424319AIP Publishing20220308020325.0cr mn |||mna||220309t2022||||nyu||||gs 0|| 0|eng d9780735424289paperback9780735424296epub9780735424302epdf10.1063/9780735424319doi2021950070TEC027000bisacshSCI053000bisacshTEC019000bisacshSu, YikaiPassive Silicon Photonic Devices
Design, Fabrication, and TestingYikai Su; Yong ZhangMelville, New YorkAIP Publishing2022online resource (188 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierHistory and Current Status — Silicon-Family Materials and Waveguides — Design of Passive Silicon Photonic Devices — Nano-Fabrication Process — Equipment and Materials in Cleanroom — Testing of Passive Devices — Photonic Integrated Circuits — Perspective on Passive Silicon Photonic Devices.This important book is a practical guide to the design, fabrication, and testing of passive silicon photonic devices. It outlines the progress of the last decades and is organized into three parts: design principles of silicon waveguides and devices, nano-fabrication processes for passive devices, and testing of waveguide devices including vertical coupling and edge coupling setup for interfacing with fibers. This timely book:
-- Provides detailed materials on the operation of equipment and methods for fabrication and testing
-- Teaches researchers and technical staff the skills to implement silicon photonic circuits quickly and successfully
-- Is authored by an eminent team from Shanghai Jiao Tong University, School of Electronic Information and Electrical Engineering, Shanghai, China
Researchers, specialists, and students working in photonics and silicon photonics devices will find Passive Silicon Photonic Devices: Design, Fabrication, and Testing an invaluable resource.TECHNOLOGY & ENGINEERING / Nanotechnology & MEMSbisacshSCIENCE / Physics/Optics & LightbisacshTECHNOLOGY & ENGINEERING / Lasers & PhotonicsbisacshZhang, YongPrinted edition 9780735424289https://doi.org/10.1063/9780735424319
00160nam a22000615u 45009780735424234AIP Publishing20220505008165.0cr mn |||mna||220505t2022||||nyu||||gs 0|| 0|eng d9780735424203paperback9780735424210epub9780735424227epdf10.1063/9780735424234doi2021949382SCI063000bisacshSCI055000bisacshBaker, BlaneCritical Thinking in the Physics CurriculumBlane BakerMelville, New YorkAIP Publishing2022online resource (102 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierHigher-Level Thinking and Applications to Physics Teaching — Higher-Level Thinking in Introductory Physics Courses — Higher-Level Thinking in Introductory Physics Laboratories — Higher-Level Thinking in Liberal-Arts Science Courses — Higher-Level Thinking in Advanced Physics Courses — Higher-Level Thinking in Advanced Physics Laboratories — Higher-Level Thinking in Scholarship — Writing in the Physics Curriculum: Recommendations, Examples, and Phrases to Avoid.This book presents a broad overview of critical thinking tactics and offers specific techniques to promote conceptual understanding and problem-solving skills. Critical Thinking in the Physics Curriculum provides detailed examples of ways to use this methodology and outlines activities for instructors to incorporate these strategies into an array of different instructional contexts. The book features:-- Discussions about how to support students in open-ended inquiry; -- Suggestions to develop critical thinking in classrooms and labs; -- Clear examples of activities using critical thinking techniques for an array of instructional contexts. Critical Thinking in the Physics Curriculum is a valuable resource for physics and physical science teachers interested in teaching strategies. Education researchers in the physical sciences, including chemistry, mathematics, astronomy, and other related disciplines, will also find it helpful.Science / Study & TeachingbisacshSCIENCE / Physics/GeneralbisacshPrinted edition 9780735424203https://doi.org/10.1063/9780735424234
00160nam a22000615u 45009780735424791AIP Publishing20220519009093.0cr mn |||mna||220519t2022||||nyu||||gs 0|| 0|eng d9780735424760paperback9780735424784epub9780735424777epdf10.1063/9780735424791doi2022931659TEC021040bisacshSCI055000bisacshSCI024000bisacshDeng, YueguangLiquid Metals for Advanced Energy ApplicationsYueguang Deng; Jing LiuMelville, New YorkAIP Publishing2022online resource (324 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Basics of Liquid Metals — Liquid Metal Convection for Heat Transfer and Energy Utilization — Liquid Metal Interface Materials to Enhance Heat and Electrical Transport — Liquid Metal Phase-Change Materials for Thermal Energy Storage — Liquid Metal Thermoelectric Generation for Thermo Energy Harvesting — Liquid Metal Magnetohydrodynamic Power Generation for Mechanical and Thermal Energy Harvesting — Liquid Metal Battery — Liquid Metal-Based Energy Catalyst — Liquid Metal-Mediated Direct Aluminum–Water Reaction for Hydrogen Energy — Future Outlook.Liquid Metals for Advanced Energy Applications provides a systematic description and review of the basics and applications of low-melting-point liquid metal technology. It includes discussions of typical liquid metal materials and their energy-related technologies based on different mechanisms. The book draws directly on cutting-edge research from the authors' laboratory, where most of the progress in the use of low-melting-point liquid metals in advanced energy technologies has occurred. This important book: -- Provides solid foundational knowledge of basic concepts and applications of the latest liquid metals in the advanced energy field; -- Reviews low-melting-point liquid metals and their applications in the energy field; -- Includes meticulous coverage of typical liquid metal materials, including fluids, interface materials, phase change materials, and composites. Liquid Metals for Advanced Energy Applications is ideal for researchers and engineers in the advanced energy field, including general liquid metal science and technology. It is also suitable for university courses in the fields of energy and materials.TECHNOLOGY & ENGINEERING / Materials Science/Thin Films, Surfaces & InterfacesbisacshSCIENCE / Physics/GeneralbisacshSCIENCE / EnergybisacshLiu, JingPrinted edition 9780735424760https://doi.org/10.1063/9780735424791
00160nam a22000615u 45009780735422339AIP Publishing20220507016102.0cr mn |||mna||220510t2022||||nyu||||gs 0|| 0|eng d9780735422308paperback9780735422315epub9780735422322epdf10.1063/9780735422339doi2021943905TEC031020bisacshMokryani, GeevFuture Distribution Networks
Planning, Operation, and ControlGeev MokryaniMelville, New YorkAIP Publishing2022online resource (212 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierDistribution Network Types and Configurations — Today's and Future's Distribution Networks — Distribution Network Losses Management — Future Development of Distribution Network Infrastructure — Power System Modeling Tools — Electricity Market for Distribution Networks — Energy Storage Systems in Future Distribution Networks — Demand Side Response and Distribution Network Management — Flexibility in Future Distribution Networks — Transition from Distribution Network Operator to Distribution System Operator — Internet of Things and Big Data Analytics in Distribution Networks Management — Control of Distribution Networks with Integration of Renewable Sources.Future Distribution Networks: Planning, Operation, and Control presents a curated collection of leading information on the planning and operation of smart grids and next-generation distribution networks. It offers a look into the future of electricity networks that enable sustainable energy services and examines how these networks will link small- and medium-scale sources with consumer demand. It discusses how intelligent grid infrastructure provides flexibility for supply and demand. The book contains: -- Structure and clarification to the concept of ‘smart grids’ offering a clear, agreed-upon definition; -- Up-to-date information in smart grids and next-generation energy distribution networks, including industry and academic/laboratory contributions; -- Recent developments in planning, operation and control of future distribution networks and smart grids with penetration of renewable energy sources. This book is an ideal resource for academic and industry researchers in the energy and energy distribution fields. It is also relevant to professionals working in renewable energy or sustainable development and to undergraduate and graduate students studying electrical power engineering.ENERGY / SCI024000 Power Resources/ElectricalbisacshPrinted edition 9780735422308https://doi.org/10.1063/9780735422339
00160nam a22000615u 45009780735424678AIP Publishing20220527020052.0cr mn |||mna||220527t2022||||nyu||||gs 0|| 0|eng d9780735424647paperback9780735424661epub9780735424654epdf10.1063/9780735424678doi2022931937SCI053000bisacshSCI009000bisacshLiu, Tzu-MingUltrafast Imaging and Spectroscopy for BiomedicineTzu-Ming LiuMelville, New YorkAIP Publishing2022online resource (262 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierINTRODUCTION — PRINCIPLES OF OPTICS — ULTRAFAST IMAGING AND SPECTROSCOPY — BIOMEDICAL APPLICATION AND TRANSLATIONAL USE.Ultrafast Imaging and Spectroscopy for Biomedicine examines the principles of ultrafast imaging and spectroscopy focusing exclusively on biomedical applications. It addresses embryo development, neural connectomes, macrophage pathology, tumor microenvironment, virtual optical biopsy, nanomedicine pharmacokinetics, and 3D bio-printing for tissue engineering. These ultrafast laser techniques enable the observation of dynamics on very short time scales, providing valuable clues about when, where, and how molecules and cells determine the pathophysiology of medical conditions. This important book:
-- Introduces the principles of ultrafast spectroscopy for those new to the topics
-- Covers applications relating exclusively to biomedicine
-- Presents a thorough overview of theory and an introduction to major ultrafast techniques
Ultrafast Imaging and Spectroscopy for Biomedicine is a key resource for graduate students, novice researchers, and industry professionals in both optics and biomedicine.SCIENCE / Physics/Optics & LightbisacshSCIENCE / Life Sciences/BiophysicsbisacshPrinted edition 9780735424647https://doi.org/10.1063/9780735424678
00160nam a22000615u 45009780735424517AIP Publishing20220521019123.0cr mn |||mna||220525t2022||||nyu||||gs 0|| 0|eng d9780735424487paperback9780735424500epub9780735424494epdf10.1063/9780735424517doi2022930531SCI053000bisacshSCI057000bisacshMondal, Partha PratimClassical and Quantum OpticsPartha Pratim MondalMelville, New YorkAIP Publishing2022online resource (256 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Wave and Fourier Optics — Wave Aspects of Light: Diffraction and Interference — Electromagnetic Optics and Polarization of Light — Introduction to Quantum Optics — Field Quantization and Hamiltonians — Quantum States of Light — Squeezed States of Light — Bunching, Unbunching, and Antibunching of Light — The Representation Theory of Light — Atom–Field Interaction — Selected Effects in Quantum Optics.Classical and Quantum Optics is the first text to cover classical and quantum optics as a single subject with the premise that genuine understanding of light requires mastery of both fields. It addresses all aspects of light equally, including geometric optics, wave optics, electromagnetic optics, and quantum optics. This timely book supplies the tools needed to fully explore the behavior of light. Classical and Quantum Optics:
-- Approaches the topic from a conceptual perspective without assuming the reader's knowledge
-- Includes relatively little math, making it ideal for students in applied sciences and engineering
-- Starts with well-established hypotheses and builds on them to explain physical effects and experimental observations
Classical and Quantum Optics is suitable for emerging researchers and professionals in optics, natural sciences, engineering, and interdisciplinary fields, as well as students in physics, applied sciences, and engineering.SCIENCE / Physics/Optics & LightbisacshSCIENCE / Physics/Quantum TheorybisacshPrinted edition 9780735424487https://doi.org/10.1063/978073542451700160nam a22000615u 45009780735424999AIP Publishing20220630016375.0cr mn |||mna||220701t2022||||nyu||||gs 0|| 0|eng d9780735424968paperback9780735424975epub9780735424982epdf10.1063/9780735424999doi2022933916TEC031010bisacshTEC000000bisacshRen, JingzhengArtificial Intelligence for Smart Photovoltaic Technologies, AJingzheng Ren; Yi Man: Edited by Jingzheng Ren; Yi Man1Melville, New YorkAIP Publishing2022online resource (220 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierMachine Learning and Deep Learning for Photovoltaic Applications — Deep Learning Method for Photovoltaic Power Prediction — Artificial Neural Network for Control of Solar Photovoltaic System — Intelligent Fault Diagnosis of Photovoltaic Systems — Predictive Maintenance of Photovoltaic System Based on Deep Learning — Parameter Estimation of Photovoltaic Systems Based on Artificial Intelligence Algorithm — Fuzzy Logic Energy Management for Photovoltaic System — Application of Evolutionary Algorithms on Solar Photovoltaic System.This important book fills the gap between smart photovoltaic technology and artificial intelligence technologies and is a major contribution to a growing field. Artificial Intelligence for Smart Photovoltaic Technologies provides a comprehensive introduction to these two areas and includes a description of key artificial intelligence algorithms and their applications in PV systems. Key topics include:
-- A focus on cutting-edge applications of the AI technologies for smart photovoltaic technologies
-- Presenting future applications of AI in PV power generation process, including power forecasting, predictive control, fault detection and diagnosis, and smart PV management
-- The role of artificial intelligence for highly efficient and stable PV power generation systems
This book is the ideal introduction for researchers in industry and academia working in both photovoltaics and applied artificial intelligence. It will also appeal more broadly to technicians, consultants, and policy experts involved in photovoltaic deployment. Graduate and advanced undergraduate students and those interested in renewable energy or artificial intelligence will also find it a useful reference.Technology & Engineering / Power Resources/Alternative & RenewablebisacshTechnology & Engineering / GeneralbisacshMan, YiPrinted edition 9780735424968https://doi.org/10.1063/9780735424999
00160nam a22000615u 45009780735423596AIP Publishing20220723020432.0cr mn |||mna||220725t2022||||nyu||||gs 0|| 0|eng d9780735423565paperback9780735423572epub9780735423589epdf10.1063/9780735423596doi2021942479TEC046000bisacshTEC022000bisacshTEC021000bisacshSaud Al Tobi, Maamar AliArtificial Intelligence Methods for Fault Diagnosis in Centrifugal Pumps, AMaamar Ali Saud Al Tobi; Geraint Bevan; Kenneth OkeduMelville, New YorkAIP Publishing2022online resource (302 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierTechnical Background on Centrifugal Pumps.This important book offers a foundation for use of artificial intelligence (AI) in fault diagnosis and classification for centrifugal pumps. It outlines methods for operators to identify and classify faults that are not easily detectable using traditional techniques like time domain and frequency domain methods. It brings together different AI approaches that are integrated with Wavelet Transform (WT) and Genetic Algorithm (GA) into a single reference—making advanced diagnostic methods accessible to engineers who may not have a computer science background. Covering a wide range of AI applications for mechanical systems, the book:
-- Advances readers from description of the problem to application of AI methods for diagnostics
-- Outlines ways for operators to identify and classify faults that are not easily detectable using traditional techniques
-- Offers new data from a novel experimental rig not previously available
Artificial Intelligence Methods for Fault Diagnosis in Centrifugal Pumps is an ideal reference for academics, engineers, and industry professionals working in plant and operations maintenance. Undergraduate and graduate students of artificial intelligence systems will find this an invaluable reference.TECHNOLOGY & ENGINEERING / MachinerybisacshTECHNOLOGY & ENGINEERING / MeasurementbisacshTECHNOLOGY & ENGINEERING / Materials Science/GeneralbisacshBevan, Geraint, Okedu, KennethPrinted edition 9780735423565https://doi.org/10.1063/9780735423596
00160nam a22000615u 45009780735424272AIP Publishing20220720010001.0cr mn |||mna||220720t2022||||nyu||||gs 0|| 0|eng d9780735424241paperback9780735424258epub9780735424265epdf10.1063/9780735424272doi2022934433TEC031010bisacshSCI055000bisacshSCI024000bisacshAl-Douri, YarubRenewable Energy
Analysis, Resources, Applications, Management, and PolicyYarub Al-Douri: Edited by Yarub Al-DouriMelville, New YorkAIP Publishing2022online resource (332 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierRenewable Energy Analysis and Resources.Renewable Energy: Analysis, Resources, Applications, Management, and Policy is a comprehensive overview and examination of the latest analysis, resources, applications, management, and policy of this emerging area of study. It offers solutions to overcome hurdles in implementing renewable energy technologies and brings together a broad range of technologies in a single source including solar-, wind-, hydro-, tidal-, geothermal-, and biomass-based energy. This important book:
-- Reviews renewable energy types to provide economic, environmental, and social solutions that support national economies
-- Examines ways to overcome hurdles in implementing renewable energy technologies
-- Discusses international challenges such as contamination, desertification, and poverty in application and management strategies
Renewable Energy: Analysis, Resources, Applications, Management, and Policy will appeal to a wide range of postgraduates and undergraduate researchers. Professionals in the field will find it a helpful resource and valuable reference.TECHNOLOGY & ENGINEERING / Power Resources/Alternative & RenewablebisacshSCIENCE / Physics/GeneralbisacshSCIENCE / EnergybisacshPrinted edition 9780735424241https://doi.org/10.1063/9780735424272
00160nam a22000615u 45009780735424715AIP Publishing20220719013465.0cr mn |||mna||220719t2022||||nyu||||gs 0|| 0|eng d9780735424692paperback9780735424685epub9780735424708epdf10.1063/9780735424715doi2022931919SCI003000bisacshSCI040000bisacshSCI085000bisacshDe Kee, DanielRecent Advances in Rheology
Theory, Biorheology, Suspension and Interfacial RheologyDaniel De Kee; Arun Ramachandran: Edited by Daniel De Kee; Arun RamachandranMelville, New YorkAIP Publishing2022online resource (350 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierExtensional Rheology of Unentangled Linear Polymer Melts — General Rigid Bead-Rod Macromolecular Theory — Rheology of Mucins — Blood Rheology and Biomedical Implications — Cellular Blood Flow Modeling with Smoothed Dissipative Particle Dynamics — Colloidal Hard Spheres — Contact Force Effects on Rheology of Dense Suspensions — Particle Suspensions in Viscoelastic Fluids: Freely Suspended, Passive, and Active Matter — Rheology of Dilute Inertial Suspensions — Lung Surfactant Dilatational Rheology and Potential Effects on Lung Stability.This book provides updates for a broad range of applications based on recently developed relationships between suspension mechanics and interparticle interactions, particle-particle contact, suspending medium rheology, flow regime, and solute mixing rates. It provides a base understanding of colloidal hard sphere rheology as a foundation for the remaining chapters. It concludes with an explanation of the intimate connection between the rheology of a suspension and its solute mass transfer characteristics. Recent Advances in Rheology: Theory, Biorheology, Suspension, and Interfacial Rheology is written by top scientists in the field and:
-- Provides in-depth and state-of-the-art coverage of this specialized topic
-- Updates the field of rheology as applied to medical, polymer, food, cosmetics, coating, surfactant, petroleum extraction, and processing applications
-- Includes updates on suspension and interfacial rheology
Suitable for physicists, applied mathematicians, physical chemists, and engineers in academia and industry, this book is an important and timely resource.SCIENCE / Applied SciencesbisacshSCIENCE / Physics/Mathematical & ComputationalbisacshSCIENCE / Mechanics/FluidsbisacshRamachandran, ArunPrinted edition 9780735424692https://doi.org/10.1063/9780735424715
00160nam a22000615u 45009780735422490AIP Publishing20220731013010.0cr mn |||mna||220803t2022||||nyu||||gs 0|| 0|eng d9780735422469paperback9780735422483epub9780735422476epdf10.1063/9780735422490doi2022933639SCI077000bisacshSCI055000bisacshAryasetiawan, FerdiDownfolding Methods in Many-Electron TheoryFerdi Aryasetiawan; Fredrik NilssonMelville, New YorkAIP Publishing2022online resource (282 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Density Functional Theory — Many-Electron Green Function — The GW Approximation — Dynamical Mean-Field Theory — Downfolding of Hilbert Space — Construction of Low-Energy Models in Solids — Solving the Low-Energy Model — The Multi-Tier GW+EDMFT Scheme — Recent Developments and Future Directions.Downfolding Methods in Many-Electron Theory is a comprehensive description of the last 30 years of study in this field, starting from LDA+U to LDA+DMFT and arriving at the recent work on multitier self-consistent GW+EDMFT. It focuses on different levels of first-principles electronic structure theories for strongly correlated electrons and outlines the downfolding method as a general approach—proven to be very productive in first-principles electronic structure of materials with strong electron correlations. This important book:
-- Summarizes the latest developments of electronic structure methods for correlated materials
-- Describes each key method from the simplest approximation to the latest developments
-- Presents specific topics not often addressed in existing literature
Downfolding Methods in Many-Electron Theory is an invaluable resource for researchers and practitioners working in electronic structure in condensed matter physics. The book presents the topic at a level also appropriate for graduate students.SCIENCE / Physics/Condensed MatterbisacshSCIENCE / Physics/GeneralbisacshNilsson, FredrikPrinted edition 9780735422469https://doi.org/10.1063/9780735422490
00000nam a22000615u 45009780735424876AIP Publishing20220830174512.0cr mn |||mna||220822t2022||||nyu||||gs 0|| 0|eng d9780735424845paperback9780735424852epub9780735424869epdf10.1063/9780735424876doi2022931660SCI040000bisacshSCI055000bisacshPereyra, Nicolas A.Real Exponential, Logarithmic, and Trigonometric Functions for PhysicistsNicolas A. PereyraMelville, New YorkAIP Publishing2022online resource (322 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierReview of Logic, Set Theory, and Isomorphism — Review of Natural Numbers and Integers — Review of Rational Numbers — Review of Real Numbers — Exponentiation of Real Numbers with Rational Number Exponents — Real Number Sequences and Limits — Exponentiation of Real Numbers with Real Number Exponents — “e” and the Exponential Function — Logarithmic Functions and the Natural Logarithmic Function — Elements of Geometry — Elements of Planar Geometry — Elements of Analytic Planar Geometry — Trigonometric Functions — Trigonometric Functions of a Sum.Real Exponential, Logarithmic, and Trigonometric Functions for Physicists builds on the author's previous books focused on mathematics for scientists. This new work presents a rigorous study of the underlying mathematical functions used in physics and provides its readers a deeper understanding for those studying and practicing the physical sciences. This in-depth study:
-- Delivers a thorough introduction to the math behind commonly used functions in physics and other disciplines
-- Provides readers with a strong foundation for developing analytic and problem-solving skills
-- Applies real life examples to bring theory to life for science students
Real Exponential, Logarithmic, and Trigonometric Functions for Physicists is a valuable guide for physics and math students, and is a concise text for instructors teaching in courses on number theory and other areas of the sciences where mathematics is needed.SCIENCE / Physics/Mathematical & ComputationalbisacshSCIENCE / Physics/GeneralbisacshPrinted edition 9780735424845https://doi.org/10.1063/9780735424876
00000nam a22000615u 45009780735424555AIP Publishing20220914164436.0cr mn |||mna||220907t2022||||nyu||||gs 0|| 0|eng d9780735424524paperback9780735424531epub9780735424548epdf10.1063/9780735424555doi2022930383SCI055000bisacshTEC021000bisacshSCI024000bisacshPatel, Vinay KumarTrends in Applications of Polymers and Polymer CompositesVinay Kumar Patel; Rishi Kant; Pankaj Singh Chauhan; Shantanu Bhattacharya: Edited by Vinay Kumar Patel; Rishi Kant; Pankaj Singh Chauhan; Shantanu BhattacharyaMelville, New YorkAIP Publishing2022online resource (204 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction to Applications of Polymers and Polymer Composites — Basalt Fiber Reinforced Polymer Composites and Their Prospective Applications in the Manufacturing Sector — The Machining Potential and Damage Modeling of Carbon/Polymer Composites for High-Performance Applications — A Comprehensive Review on Natural Fiber Reinforced Polymer Composites and Its Applications — Polymer-Based Electrolytes for Solid-State Batteries: Current Status and Future Challenges in Emerging Applications — Polymer Composites for Tribological Applications — Stimuli-Responsive Polymeric Materials and Composites for Biomedical Applications — Shape Memory Polymers and Their Emerging Applications — Conducting Polymer Composites and Their Application in Gas Sensing — Index.This book offers a comprehensive overview of trends in polymers and their derivatives with a focus on sustainable, composite polymers and their applications across a variety of fields. It offers insights on novel applications of these materials to solve today's complex industrial challenges. The book provides an extensive review of various composites, including bamboo fiber, nanofilled epoxy, carbon nano-onions (CNOs), basalt fiber reinforced, reduced graphene oxide (rGO)/epoxy, and natural fiber reinforced polymer composites. Trends in Applications of Polymers and Polymer Composites:
-- Addresses smart polymers/stimuli responsive polymers or programmable polymers
-- Discusses the applications of conducting polymer composites for the development of resistive and electrochemical gas sensors
-- Provides a roadmap for the future applications of different intelligent/smart polymer composites
This book is an invaluable resource for research professionals engaged in polymer related research, graduate students, and postdoctoral researchers. Undergraduate students, materials scientists, and polymer microfabrication engineers will also find it a useful reference.SCIENCE / Physics/GeneralbisacshTECHNOLOGY & ENGINEERING / Materials Science/GeneralbisacshSCIENCE / EnergybisacshKant, Rishi, Chauhan, Pankaj Singh, Bhattacharya, ShantanuPrinted edition 9780735424524https://doi.org/10.1063/9780735424555
00160nam a22000615u 45009780735425118AIP Publishing20220913021182.0cr mn |||mna||220908t2022||||nyu||||gs 0|| 0|eng d9780735425095paperback9780735425125epub9780735425101epdf10.1063/9780735425118doi2022936941SCI057000bisacshSCI053000bisacshMalomed, Boris A.Multidimensional SolitonsBoris A. MalomedMelville, New YorkAIP Publishing2022online resource (406 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Basic Theoretical Models — The Use of Higher-Order Nonlinearities: Theory — The Use of Higher-Order Nonlinearities: Experiments in Optical Media — Linear Trapping Potentials — Nonlinear Trapping Potentials and Nonlinearity Management — Spatially Periodic Potentials (Lattices): Theory — Spatially Periodic Potentials (Lattices): Experiments — Stabilization of Multidimensional Solitons by Spin–Orbit Coupling (SOC) — Emulation of the Spin—Orbit Coupling (SOC) in Optical Systems — Quantum Droplets (QDs): Theory — Experiments: Quantum Droplets (QDs) in the BEC with Contact and Dipole–Dipole Interactions (DDIs) — Multidimensional Solitons in Nonlocal Media — Multidimensional Dissipative Solitons and Solitary Vortices — Conclusion — Index.Written by the preeminent researcher in this field, Multidimensional Solitons provides a comprehensive survey of self-trapped modes in two- and three-dimensional nonlinear media. It reviews studies covering fundamentals and recently reported theoretical and experimental results in diverse areas, such as nonlinear optics and Bose-Einstein condensates. This vital work explores fundamental solitons, topologically organized ones, such as solitary vortices and hopfions, and a broad spectrum of other soliton species, including those in lattice and dissipative media. Multidimensional Solitons:
-- Offers a general introduction to the modern “soliton science”
-- Provides context on the fundamentals of solitons in nonlinear optics and Bose-Einstein condensates
-- Instructs how the stabilization of two- and three-dimensional solitons is possible, which is a crucially important problem for multidimensional setups
-- Presents theoretical (analytical and numerical) and experimental results on optical and matter-wave solitons in diverse settings
Researchers – both theorists and experimentalists – working in optics and photonics, low-temperature and atomic physics, mathematical physics, and applied mathematics will all find this an instrumental reference. Graduate students in these disciplines will also find it as a valuable resource.SCIENCE / Physics/Quantum TheorybisacshSCIENCE / Physics/Optics & LightbisacshPrinted edition 9780735425095https://doi.org/10.1063/9780735425118
00160nam a22000615u 45009780735424357AIP Publishing20220902016195.0cr mn |||mna||220902t2022||||nyu||||gs 0|| 0|eng d9780735424326paperback9780735424333epub9780735424340epdf10.1063/9780735424357doi2021950634SCI026000bisacshTEC010000bisacshVallero, Daniel A.Methods and Calculations in Environmental PhysicsDaniel A. ValleroMelville, New YorkAIP Publishing2022online resource (412 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction: Importance of Systems Sciences and First Principles — Environmental Statics and Dynamics — Systems and Dynamics — Environmental Fluid Dynamics — Physics of Ecosystems — Water Pollution Physics — Air Pollution Physics — Soil and Sediment Physics — Biotic Physics — Index.Methods and Calculations in Environmental Physics refreshes and introduces the basics of physics for those trained in other disciplines who apply physics in their work and research. This book examines a range of topical environmental challenges from a physics perspective, addressing them as both forward and inverse problems. Readers are then able to see cause-and-effect relationships from the full range of physical principles and factors. Comprehensive coverage includes:
-- An interdisciplinary and systems approach to topics including systems dynamics, toxicology, risk exposure, and pollution control
-- A focus on many aspects of environmental problems from the perspective of the physicist
-- Relationships between environmental physics, chemistry, and biology
Methods and Calculations in Environmental Physics is an invaluable resource for practicing environmental engineers and scientists, graduate students in environmental programs, and undergraduates in engineering, biology, and ecology.SCIENCE / Environmental Science (see also Chemistry/Environmental)bisacshTECHNOLOGY & ENGINEERING / Environmental/GeneralbisacshPrinted edition 9780735424326https://doi.org/10.1063/9780735424357
00160nam a22000615u 45009780735424913AIP Publishing20220825011335.0cr mn |||mna||220825t2022||||nyu||||gs 0|| 0|eng d9780735424883paperback9780735424890epub9780735424906epdf10.1063/9780735424913doi2022933918SCI013080bisacshTEC010000bisacshVallero, Daniel A.Applications and Calculations in Environmental Physics, ADaniel A. ValleroMelville, New YorkAIP Publishing2022online resource (262 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Environmental Health Physics — Role of Physics in Risk and Exposure Assessment — Physics of Pollution Control Technologies — Remediation Physics — Case Studies — The Future: The Physics of Emerging Technologies — Index.Applications and Calculations in Environmental Physics addresses environmental pollution and its effects on human health and ecosystem conditions. It explores how all organisms respond to exposures to pollutants at the cellular level. The book describes in detail the science, engineering, and technologies needed to measure, remove, and treat pollutants and concludes with a forecast of some of the pollutants and problems that will emerge in the coming decades. This important book:
-- Describes the role physics plays in all types of environmental scenarios including laws, theories and principles of thermodynamics, and fluid dynamics
-- Addresses real-life problems and solutions for pollutants in the air, water, soil, or sediment, and in the human body and other organisms
-- Includes discussions of pollutant and nutrient transport, transformation, fate, and cycling through myriad ecosystems at every scale
Applications and Calculations in Environmental Physics is for professionals and researchers in environmental science, engineering, ecology, epidemiology, pharmacology, geology, land use planning, and soil science. Students and faculty and those interested in learning more about physical sciences such as physicians, attorneys, economists, and insurance auditors will also find it useful.SCIENCE / Chemistry/Environmental (see also Environmental Science)bisacshTECHNOLOGY & ENGINEERING / Environmental/GeneralbisacshPrinted edition 9780735424883https://doi.org/10.1063/9780735424913
00160nam a22000615u 45009780735421721AIP Publishing20220927009382.0cr mn |||mna||220927t2022||||nyu||||gs 0|| 0|eng d9780735421738paperback9780735421714epub9780735421707epdf10.1063/9780735421721doi2021950321SCI055000bisacshSCI061000bisacshKastrup, HelgeEinstein's Elevator and Other Marvels
Great Physicists and Their AchievementsHelge Kastrup; Jeffry V. MallowMelville, New YorkAIP Publishing2022online resource (254 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierCLASSICAL ASTRONOMY — CLASSICAL PHYSICS — MATHEMATICAL PHYSICS — THERMODYNAMICS — CLASSICAL ELECTROMAGNETISM — RELATIVITY — QUANTUM PHYSICS — NUCLEAR AND HIGH ENERGY PHYSICS — ASTROPHYSICS — Index.…a variety of physics discoveries, intertwined with anecdotal stories elaborating on the lives of famous physicists throughout history. The book takes the reader through more than 500 years of scientific progress and provides context for the development of physics. This unique title:
-- Presents physics, astronomy, and mathematics in a simple yet comprehensive manner, using only elementary algebra and the Pythagorean Theorem
-- Introduces readers to physics discoveries and insights into the lives of well-known physicists
-- Challenges some common stereotypes of both the science and its practitioners; in particular, female luminaries are given their well-deserved place in the pantheon
Einstein's Elevator and Other Marvels: Great Physicists and Their Achievements is written primarily for non-scientists interested in physics and science history. Physicists, other scientists, and students should also find it interesting.SCIENCE / Physics/GeneralbisacshSCIENCE / Physics/RelativitybisacshMallow, Jeffry V.Printed edition 9780735421738https://doi.org/10.1063/9780735421721
00160nam a22000615u 45009780735424111AIP Publishing20221029012513.0cr mn |||mna||221101t2022||||nyu||||gs 0|| 0|eng d9780735424081paperback9780735424098epub9780735424104epdf10.1063/9780735424111doi2022930539SCI024000bisacshSCI055000bisacshBangga, GalihWind Turbine Aerodynamics Modeling Using CFD ApproachesGalih BanggaMelville, New YorkAIP Publishing2022online resource (168 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Basic of Wind Turbine Aerodynamics — Engineering Models for Wind Turbine Computations — Computational Fluid Dynamics — Actuator Methods for Wind Turbine Computations — Aeroelastic Effects on Wind Turbine — Modeling Turbulence for Wind Turbine Simulations — Consistency between Engineering Models and High Order Methods — Concluding Remarks — Index.As countries seek clean, renewable, low-cost, domestic alternatives to fossil fuels, wind energy is an increasingly important source of power generation worldwide. Scientists and industry professionals require better tools to understand and expand the performance and efficiency. Wind Turbine Aerodynamics Modeling Using CFD Approaches provides a comprehensive and focused introduction to computational approaches for wind turbine aerodynamic calculations, ranging from the simple cost-efficient engineering modeling to high fidelity computational fluid dynamics methods. This broad-reaching book:
-- Provides a thorough introduction to numerical methods as applied to the simulation of wind turbine aerodynamics
-- Includes a comprehensive and focused introduction to computational approaches for wind turbines
-- Provides state-of-the-art information serving as a primer for deeper study
The book is an ideal first text for students, researchers, and industry professionals working in wind engineering and in wind energy computations.SCIENCE / EnergybisacshSCIENCE / Physics/GeneralbisacshPrinted edition 9780735424081https://doi.org/10.1063/9780735424111
00160nam a22000615u 45009780735425194AIP Publishing20221114012470.0cr mn |||mna||221114t2022||||nyu||||gs 0|| 0|eng d9780735425088paperback9780735425170epub9780735425187epdf10.1063/9780735425194doi2022939797TEC031010bisacshTEC007000bisacshTEC064000bisacshCao, WenpingAdvanced Sensors and Sensing Technologies for Electric Vehicles, AWenping Cao; Siliang LuMelville, New YorkAIP Publishing2022online resource (180 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierELECTRICAL SIGNAL MEASUREMENTS AND APPLICATIONS IN EVs — MAGNETIC SIGNAL MEASUREMENTS AND APPLICATIONS IN EVs — SPEED, TEMPERATURE, VIBRATION, PAYLOAD, AND ACOUSTIC SENSING AND APPLICATIONS IN EVs — Index.Advanced Sensors and Sensing Technologies for Electric Vehicles captures the latest technological advancements with a focus on improving component durability, energy efficiency, system controllability and fault tolerance. It provides an overview of new and emerging technologies in physics, electrical and electronic engineering, mechanical engineering, optical fibers, telecommunications, data analytics and artificial intelligence as applied in electric vehicles. This broad-reaching book:
-- Addresses key issues facing the growing industry as it develops enhanced functionality, autonomous driving capabilities, and super connectivity
-- Offers solutions including sensing technologies, wireless transmission, big data analytics
-- Provides the information in a comprehensive, handbook-style manual that covers a range of technologies and disciplines
Appropriate for professors, Ph.D., graduate students and undergraduate students, Advanced Sensors and Sensing Technologies for Electric Vehicles is a timely and comprehensive addition to the literature.TECHNOLOGY & ENGINEERING / Power Resources/Alternative & RenewablebisacshTECHNOLOGY & ENGINEERING / ElectricalbisacshTECHNOLOGY & ENGINEERING / SensorsbisacshLu, SiliangPrinted edition 9780735425088https://doi.org/10.1063/9780735425194
00160nam a22000615u 45009780735422575AIP Publishing20221125016485.0cr mn |||mna||221128t2022||||nyu||||gs 0|| 0|eng d9780735422544paperback9780735422568epub9780735422551epdf10.1063/9780735422575doi2022931511SCI055000bisacshSCI074000bisacshNikolopoulos, Lampros A. A.Computing Atomic Quantum Dynamics in Laser FieldsLampros A. A. NikolopoulosMelville, New YorkAIP Publishing2022online resource (230 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction to Atom–Laser Dynamics — Basics of Differential and Matrix Calculus — Spatial Approximation — Time Approximation — Laser Pulses — TDSE as a Space–Time Differential Equation — Atomic Structure of Hydrogenic Systems — TDSE of Hydrogen — Ionization Dynamics of Wavepackets — Hydrogen Ionization — Index.Computing Atomic Quantum Dynamics in Laser Fields introduces theory in tandem with practical methods to calculate end numbers—teaching typically separate subjects together. The topics covered are at the core of several contemporary areas of theoretical atomic, molecular, and optical physics (AMO) including ultrashort laser fields, quantum dynamics and control, quantum imaging, and computational physics. High performance algorithms, numerical analysis, and differential and matrix calculus are presented in the context of the theory of laser atom dynamics. Computing Atomic Quantum Dynamics in Laser Fields:
-- Combines practical numerical methods in computing atomic processes in ultrashort laser fields in a systematic and coherent manner
-- Shortens learning time for mastering computational techniques in atomic, molecular, and optical research
-- Presents theoretical formulations in a manner that fits naturally with the discrete nature of computational algorithms
Post-graduate students and practitioners in the field of AMO and computational physics will find this an invaluable resource.SCIENCE / Physics/GeneralbisacshSCIENCE / Physics/Atomic & MolecularbisacshPrinted edition 9780735422544https://doi.org/10.1063/9780735422575
00160nam a22000615u 45009780735424197AIP Publishing20221129014305.0cr mn |||mna||221128t2022||||nyu||||gs 0|| 0|eng d9780735424166paperback9780735424173epub9780735424180epdf10.1063/9780735424197doi2021934610TEC031000bisacshTEC031010bisacshTEC031020bisacshReeves-McLaren, NikInside Energy Storage Materials
Diffraction and Spectroscopic Methods for Battery ResearchNik Reeves-McLarenMelville, New YorkAIP Publishing2022online resource (162 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction to the Materials Science of Rechargeable Batteries — Diffraction Basics — Instrument Design — X-Ray Absorption Spectroscopy — Operando and In Situ Electrochemical Cell Designs — Electrochemistry in the Wild — Non-Ambient Experiments for Energy Storage Materials — Emergent Techniques and Future Directions — Index.Inside Energy Storage Materials: Diffraction and Spectroscopic Methods for Battery Research is an up-to-date and comprehensive introduction to the best practices for in situ and operando x-ray and neutron diffraction experiments. It focuses on key information to make the field of batteries and materials science accessible to newcomers. The book is designed to help its readers avoid the long periods of trial and error they typically face when entering this area of research. This useful handbook:
-- Offers practical guidance on the details of software tools and experimental design techniques
-- Combines diffraction and battery materials in one text
-- Provides an updated discussion of x-ray and neutron powder diffraction methods and analytical tools
-- Contains an updated literature review of the latest developments in the energy storage materials field
Inside Energy Storage Materials: Diffraction and Spectroscopic Methods for Battery Research is ideal for postgraduate, academic, and industrial researchers working in energy storage materials and R&D teams in the battery industry.TECHNOLOGY & ENGINEERING / Power Resources/GeneralbisacshTECHNOLOGY & ENGINEERING / Power Resources/Alternative & RenewablebisacshTECHNOLOGY & ENGINEERING / Power Resources/ElectricalbisacshPrinted edition 9780735424166https://doi.org/10.1063/9780735424197
00160nam a22000615u 45009780735424470AIP Publishing20221122015462.0cr mn |||mna||221123t2022||||nyu||||gs 0|| 0|eng d9780735424449paperback9780735424456epub9780735424463epdf10.1063/9780735424470doi2022930384TEC059000bisacshSCI010000bisacshStavrinidou, EleniIntroduction to Bioelectronics
Materials, Devices, and ApplicationsEleni Stavrinidou; Christopher M. Proctor: Edited by Eleni Stavrinidou; Christopher M. ProctorMelville, New YorkAIP Publishing2022online resource (338 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Biocompatibility and the Biotic/Abiotic Interface—An Overview of the Challenges Presented When Interfacing Electronics with Biology and Strategies to Minimize Foreign Body Response — Electrodes and Materials — Transistors in Bioelectronics — Biochemical Sensing — Electronically Controlled Drug Delivery — Translational Neuroelectronics — Nerve Stimulation — In Vitro Bioelectronic Systems — Tissue Engineering — Retinal Prostheses — Bioelectronics for Plant Interface — Index.Introduction to Bioelectronics: Materials, Devices, and Applications is a timely overview of this emerging field and focuses on foundational principles. It explores primary applications and provides current insights for bioelectronics interfaces, device operation and design, materials considerations, and the monitoring, control, and enhancement of biological processes. Its pedagogical approach makes it a useful text for courses teaching bioelectronics, biomedical engineering, biosensors, biotechnology, drug delivery, and/or applied neuroscience. This book offers:
-- A comprehensive examination of fundamental concepts in bioelectronics
-- Discussions on bioelectronic applications, device design, and materials considerations
-- An overview of the current state of the art in bioelectronics research
Researchers, industry professionals, and graduate students will find Introduction to Bioelectronics: Materials, Devices, and Applications an important resource for learning general biomedical engineering and biotechnology topics and the current state of research in this developing area of science.TECHNOLOGY & ENGINEERING / BiomedicalbisacshSCIENCE / BiotechnologybisacshProctor, Christopher M.Printed edition 9780735424449https://doi.org/10.1063/9780735424470
00160nam a22000615u 45009780735425392AIP Publishing20221117012060.0cr mn |||mna||221111t2022||||nyu||||gs 0|| 0|eng d9780735425361paperback9780735425385epub9780735425378epdf10.1063/9780735425392doi2022941621TEC007000bisacshTEC031020bisacshZabar, ZivanFundamentals of Distributed Generation SystemsZivan ZabarMelville, New YorkAIP Publishing2022online resource (256 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — DISTRIBUTED GENERATION SOURCES—AN OVERVIEW — MAJOR ELECTRICAL COMPONENTS — INTERACTION WITH THE UTILITY GRID — Index.This textbook addresses the fundamentals of employing distributed generation systems. The content is based on the development, changes, and needs of electric utility companies in restructuring the prevailing electrical grids. The material, the order of the chapters, and the practice problems are based on years of teaching experience, including students' reactions and their knowledge acquisition. It is divided into three main parts:
-- Principles of operation of commonly used distributed generators: Fuel Cells, Solar Cells, Gas Turbines, Microturbines, Reciprocate Internal Combustion Engines, and Wind Turbines.
-- Detailed analysis of three major components: the induction generator (including its doubly-fed configuration), the synchronous generator (including dynamic volt-ampere reactive control), and the power static converters (including DC/DC and self- and line-commutated units).
-- Interaction with electric utility lines, including the effects of harmonic distortion, voltage stability, volt-ampere reactive control, and fault conditions.
The book also includes many practice and drill problems and is an ideal text for graduate students and an invaluable handbook for engineers working in electrical power systems.TECHNOLOGY & ENGINEERING / ElectricalbisacshTECHNOLOGY & ENGINEERING / Power Resources/ElectricalbisacshPrinted edition 9780735425361https://doi.org/10.1063/9780735425392
00160nam a22000615u 45009780735425422AIP Publishing20221205022130.0cr mn |||mna||221206t2022||||nyu||||gs 0|| 0|eng d9780735425408paperback9780735425439epub9780735425415epdf10.1063/9780735425422doi2022943018SCI013010bisacshTEC021040bisacshSCI078000bisacshRout, Chandra SekharAdvanced Analytical Techniques for Characterization of 2D Materials, AChandra Sekhar Rout; Dattatray J. Late: Edited by Chandra Sekhar Rout; Dattatray J. LateMelville, New YorkAIP Publishing2022online resource (232 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — Optical Based Techniques for 2D Layered Materials — Raman Spectroscopy-Based Techniques for 2D Layered Materials — X-Ray-Based Techniques for 2D Materials — Probe-Based Techniques for 2D Layered Materials — Electron Diffraction-Based Techniques for 2D Layered Materials — Analytical Techniques for Hardness, Nanoindentation, and Elastic Modulus — Analytical Techniques for Pore Size and Specific Surface Area Analysis — Analytical Techniques for the Wettability and Contact Angle — Twistronics: Investigating Twist Angles in 2D Materials — Density Functional Theory: An Investigative and Predictive Tool for the Study of 2D Materials — Summary — Index.This timely and comprehensive book focuses on various analytical techniques used for 2D materials. It explores different characterization techniques to understand the structural features and properties of as-synthesized 2D materials and explores optical microscopy, atomic force microscopy (AFM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), Raman spectroscopy, x-ray diffraction (XRD), and x-ray photoelectron spectroscopy (XPS). Advanced Analytical Techniques for Characterization of 2D Materials:
-- Compiles a range of modern material characterizations of 2D materials for the first time.
-- Includes a review of recent advances and provides a practical guide for traditional analytical techniques.
-- Offers a pragmatic approach to the various analytical methods and recent advances
Research scholars and experienced researchers, scientists, technologists, and industrialists beginning their research into the exciting field of 2D nanotechnology will find this book a valuable resource and excellent guideline to explore novel materials and their properties.SCIENCE / Chemistry/AnalyticbisacshTECHNOLOGY & ENGINEERING / Materials Science/Thin Films, Surfaces & InterfacesbisacshSCIENCE / Spectroscopy & Spectrum AnalysisbisacshLate, Dattatray J.Printed edition 9780735425408https://doi.org/10.1063/9780735425422
00160nam a22000615u 45009780735425668AIP Publishing20221226021455.0cr mn |||mna||221227t2022||||nyu||||gs 0|| 0|eng d9780735425644paperback9780735425675epub9780735425651epdf10.1063/9780735425668doi2022943598SCI053000bisacshSCI013010bisacshSCI057000bisacshWilliams, Darren L.Spectroscopy Theory in One DimensionDarren L. Williams; Victoria S. JacksonMelville, New YorkAIP Publishing2022online resource (160 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierThe Emergence of Quantum Mechanics — Managing the Messy Mathematics — Energy and the Transition Equations — Into the Spectroscopic Weeds—Absorption and Emission Intensities — Rayleigh and Raman Scattering Intensities — The Big Picture — Why Symmetry? — Symmetry Selection Rules for the 1D Particle in a Box — Symmetry Selection Rules for the 1D Particle on a Ring — Is Symmetry Enough? What’s Missing? — Failures of Classical Physics Revisited, and Understood — Index — The Emergence of Quantum Mechanics — Managing the Messy Mathematics — Energy and the Transition Equations — Into the Spectroscopic Weeds—Absorption and Emission Intensities — Rayleigh and Raman Scattering Intensities — The Big Picture — Why Symmetry? — Symmetry Selection Rules for the 1D Particle in a Box — Symmetry Selection Rules for the 1D Particle on a Ring — Is Symmetry Enough? What’s Missing? — Failures of Classical Physics Revisited, and Understood.Spectroscopy Theory in One Dimension is an in-depth introduction to quantum chemistry using classical analytical calculus and symmetry group theory. The book employs the one-dimensional particle in a box and particle on a ring systems to develop the theoretical underpinnings of real-life spectroscopy and quantum mechanics. Wave functions, energy equations, transition intensities, and spectroscopic selection rules for absorption, emission, Rayleigh, and Raman spectra are derived and applied to explore why the sky is blue, why sunsets are red, and how quantum effects depend upon mass, size, temperature, and spectral resolution. Readers will understand how to:
-- Predict three-dimensional spectroscopic behavior using one-dimensional examples
-- Assign quantum transitions in real spectroscopic data using analytical calculus and group theory
-- Connect the mysterious quantum mechanical wave function to everyday experiences of light and color
Spectroscopy Theory in One Dimension is an ideal and accessible text for students in spectroscopy and quantum mechanics courses. Novice researchers in all physical science fields as well as experienced researchers and technicians needing an in-depth theoretical approach will find it invaluable.SCIENCE / Physics/Optics & LightbisacshSCIENCE / Chemistry/AnalyticbisacshSCIENCE / Physics/Quantum TheorybisacshJackson, Victoria S.Printed edition 9780735425644https://doi.org/10.1063/9780735425668
00160nam a22000615u 45009780735422537AIP Publishing20221222011595.0cr mn |||mna||221226t2022||||nyu||||gs 0|| 0|eng d9780735422513paperback9780735422506epub9780735422520epdf10.1063/9780735422537doi2022944651SCI077000bisacshSCI055000bisacshBasu, SaurabhModern Perspectives in the Study of Electronic SystemsSaurabh Basu; Sourav ChattopadhyayMelville, New YorkAIP Publishing2022online resource (308 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierMagnetism — Quantum Hall Effect — Symmetry and Topology — Superconductivity — Index.Modern Perspectives in the Study of Electronic Systems focuses on recent developments in selected critical areas of condensed matter physics. The book blends theoretical developments and experimental discoveries of materials, helping the reader understand different phenomena. It studies the Quantum Hall Effect (integer and fractional) and superconductivity from phenomenological and microscopic perspectives. Magnetism and magnetic phenomena in solids via approximate solutions of the Hamiltonian model are also addressed. The book also discusses the topological aspects of materials that have fundamentally changed the study of condensed matter physics in the recent times. This timely and practical book:
-- Introduces topology that has governed the study of two-dimensional Dirac materials and led to the discovery of three-dimensional materials
-- Includes illustrations and plots for better visualization and understanding of the book content
-- Uses a hands-on approach to teach subjects that have influenced teaching and research worldwide
Modern Perspectives in the Study of Electronic Systems is an excellent tutorial for senior undergraduate students, graduate students, and early-career researchers. It will be helpful for teachers in teaching courses on specialized topics in condensed matter physics.SCIENCE / Physics/Condensed MatterbisacshSCIENCE / Physics/GeneralbisacshChattopadhyay, SouravPrinted edition 9780735422513https://doi.org/10.1063/9780735422537
00160nam a22000615u 45009780735425279AIP Publishing20230118019270.0cr mn |||mna||230120t2023||||nyu||||gs 0|| 0|eng d9780735425248paperback9780735425262epub9780735425255epdf10.1063/9780735425279doi2022939954SCI009000bisacshSCI055000bisacshWang, YongPractical Guide to Recent Advances in Multiscale Modeling and Simulation of Biomolecules, AYong Wang; Ruhong Zhou: Edited by Yong Wang; Ruhong ZhouMelville, New YorkAIP Publishing2023online resource (244 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierA Practical Introduction to Martini 3 and Its Application to Protein-Ligand Binding Simulations — Multiscale Theoretical Studies for Molecular Motors — Simulating Transmembrane Proteins with the Coarse-Grained SIRAH Force Field: Tips and Tricks for Setting Up and Running in AMBER — A Guide to Titratable Martini Simulations — Simulating Membrane Proteins with Constant pH Molecular Dynamics — Learning DeePMD-kit: A Guide to Building Deep Potential Models — Enhanced Sampling Based on Collective Variables — A Practical Guide to Kinetics Calculation of Protein Conformational Change Using Frequency Adaptive Metadynamics — TAPS: A Traveling-Salesman Based Automated Path Searching Method for Functional Dynamics of Complex Biomolecular Systems — A Step-by-Step Guide on How to Construct Quasi-Markov State Models to Study Functional Conformational Changes of Biological Macromolecules — Calculation of Relative Binding Free Energy for Mutations in Protein Complexes: The Alchemical Path — Appendix — Index.Biomolecular modeling and simulation are becoming increasingly crucial for understanding the microscopic biological world with high time and spatial recognition. A Practical Guide to Recent Advances in Multiscale Modeling and Simulation of Biomolecules offers guidance for advanced multiscale modeling and machine learning-aided molecular simulations. The book provides reproducible, step-by-step instructions on the scripts and codes needed to complete the simulations. It offers readers tips, tricks, and troubleshooting advice for the reader's real-life challenges. Topics in this book focus on the latest developments and:
-- Provide an overview of current methods and techniques
-- Serve as a tutorial and an in-depth historical record of the topic
-- Contain step-by-step instructions for the methods used in molecular modeling and simulation of biomolecules
A Practical Guide to Recent Advances in Multiscale Modeling and Simulation of Biomolecules is a key resource for students and researchers in biology, biophysics, biochemistry, and computational chemistry.SCIENCE / Life Sciences/BiophysicsbisacshSCIENCE / Physics/GeneralbisacshZhou, RuhongPrinted edition 9780735425248https://doi.org/10.1063/9780735425279
00160nam a22000615u 45009780735425163AIP Publishing20230203018581.0cr mn |||mna||230203t2023||||nyu||||gs 0|| 0|eng d9780735425132paperback9780735425156epub9780735425149epdf10.1063/9780735425163doi2022936726TEC031020bisacshTEC007000bisacshSCI024000bisacshNwulu, NnamdiEnergy 4.0
Concepts and ApplicationsNnamdi Nwulu; Uyikumhe DamisaMelville, New YorkAIP Publishing2023online resource (208 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction to Industry 4.0 Technologies — Trends Driving Energy 4.0 — A Systematic Literature Review on Energy 4.0 — Self-Organization and Autonomous Operations of Cyber-Physical Energy systems — Auditability and Security of Cyber-Physical Energy Systems — Blockchain and Smart Contracts — Data Analytics in Energy 4.0 — Smart Grids — Energy Storage — Smart Buildings — Prosumers in Hybrid Renewable Energy Systems — Future of Energy 4.0 — Index.The digital revolution in the energy industry, known as Energy 4.0, is a paradigm shift that will affect the business models of power and energy utilities worldwide. Energy 4.0: Concepts and Applications presents an overview of diverse concepts associated with the fourth industrial revolution and details trends driving Energy 4.0 in the energy industry. Changes and challenges in utility-consumer interactions and key components and application areas including blockchain, prosumers, smart meters, and smart buildings are discussed. This forward-looking book:
-- Offers the reader an understanding of the impact of the energy industry revolution
-- Serves as a handbook of concepts and terminologies associated with Energy 4.0
-- Presents insights into the potential challenges of embracing Energy 4.0
Energy 4.0: Concepts and Applications is ideal for postgraduate students and researchers in energy-related fields and is an invaluable resource for utility managers, operators, engineers, and policymakers.TECHNOLOGY & ENGINEERING / Power Resources/ElectricalbisacshTECHNOLOGY & ENGINEERING / ElectricalbisacshSCIENCE / EnergybisacshDamisa, UyikumhePrinted edition 9780735425132https://doi.org/10.1063/9780735425163
00160nam a22000615u 45009780735425033AIP Publishing20230202021065.0cr mn |||mna||230203t2023||||nyu||||gs 0|| 0|eng d9780735425002paperback9780735425019epub9780735425026epdf10.1063/9780735425033doi2022934589TEC021020bisacshSCI077000bisacshSpeck, James S.Ultrawide Bandgap β-Ga2O3 Semiconductor
Theory and ApplicationsJames S. Speck; Esmat Farzana: Edited by James S. Speck; Esmat FarzanaMelville, New YorkAIP Publishing2023online resource (364 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction — β-Ga2O3 Bulk Growth Techniques — MOCVD Growth of β-Ga2O3 Epitaxy — Molecular Beam Epitaxy of Ga2O3 — Defects in β-Ga2O3: Theory and Microscopic Studies — Dopants in β-Ga2O3: From Theory to Experiments — Electron Transport in β-Ga2O3 from First-Principles — High Breakdown Voltage β-Ga2O3 Schottky Diodes — Etching of β-Ga2O3 — Lateral Transistors on β-Ga2O3: Overview on Design, Technology, and Characterization — Delta-Doped Transistors with β-Ga2O3 — Radiation Effects on β-Ga2O3 Materials and Devices — Future Prospect of β-Ga2O3: Materials, Devices and Circuit Applications — Index.Beta-phase gallium oxide (β-Ga2O3) is a material of growing interest as a potential next-generation power semiconductor with its ultrawide bandgap, predicted breakdown field, and affordability of native substrates. Ultrawide Bandgap β-Ga2O3 Semiconductor: Theory and Applications is a comprehensive overview of β-Ga2O3 semiconductor and its application in power electronic devices. It introduces readers to fundamental properties, addresses recent developments and existing challenges in growth and devices of β-Ga2O3, and offers insights to the future direction of commercialization through chip and circuit integration. Covering a wide range of power devices, the book discusses:
-- The properties of β-Ga2O3 that make it a potential next-generation semiconductor material
-- A variety of techniques for producing and modifying β-Ga2O3 electronic properties
-- An introduction to device concepts, fabrication, and functionality evaluation for prospective high power, high-frequency, and extreme-environment applications
-- Commercialization challenges and how they may be addressed to make them a viable option
Ultrawide Bandgap β-Ga2O3 Semiconductor: Theory and Applications answers the needs of both researchers and professionals in semiconductor devices, electronic materials, solid-state physics, consumer electronics, communications, and all other industries reliant on semiconductors.TECHNOLOGY & ENGINEERING / Materials Science/Electronic MaterialsbisacshSCIENCE / Physics/Condensed MatterbisacshFarzana, EsmatPrinted edition 9780735425002https://doi.org/10.1063/9780735425033
00160nam a22000615u 45009780735424395AIP Publishing20230301019290.0cr mn |||mna||230302t2023||||nyu||||gs 0|| 0|eng d9780735424364paperback9780735424371epub9780735424388epdf10.1063/9780735424395doi2022934140TEC027000bisacshTEC064000bisacshTEC008070bisacshBasu, Aviru KumarMEMS Applications in Electronics and EngineeringAviru Kumar Basu; Adreeja Basu; Sagnik Ghosh; Shantanu Bhattacharya: Edited by Aviru Kumar Basu; Adreeja Basu; Sagnik Ghosh; Shantanu BhattacharyaMelville, New YorkAIP Publishing2023online resource (278 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierIntroduction to MEMS Applications in Electronics and Engineering — Scaling Law — Recent Progress in Cantilever-Based Sensors: An Overview of Application and Fabrication Techniques — Recent Trends in CMOS-MEMS Sensors — Mechanics of Materials Considerations in MEMS-Based Medical Devices — Progress in RF MEMS/NEMS Switches — Optical MEMS (Microspheres and Ring Resonators): Overview of Recent Progress — Emerging Trends in MEMS/NEMS Based Technologies for Gas Sensing Applications — MEMS-Based Energy Harvesting Devices: Overview of Recent Progress — Index.MEMS Applications in Electronics and Engineering is a state-of-the-art resource for scientists and students in sensor/device research. It provides a thorough overview of the latest applications and devices in nano-scale sensors and their role in diagnostics, consumer electronics, automotive, energy harvesting, and IoT-based applications. It highlights recent developments in MEMS-based sensors and explains the fundamentals, novel processes, and materials of this global area of focus. This timely and essential book:
-- Builds knowledge for people working in other domains through its interdisciplinary approach
-- Identifies recent technologies from MEMS sensors domains and their efficacy in real-life applications
-- Covers relevant topics for the expert as well as foundational information for non-specialists in MEMS technologies
MEMS Applications in Electronics and Engineering is a valuable guide for students, researchers, and faculty engaged in MEMS-related research and research professionals.TECHNOLOGY & ENGINEERING / Nanotechnology & MEMSbisacshTECHNOLOGY & ENGINEERING / SensorsbisacshTECHNOLOGY & ENGINEERING / Electronics/MicroelectronicsbisacshBasu, Adreeja, Ghosh, Sagnik, Bhattacharya, ShantanuPrinted edition 9780735424364https://doi.org/10.1063/9780735424395
00160nam a22000615u 45009780735425590AIP Publishing20230310014441.0cr mn |||mna||230310t2023||||nyu||||gs 0|| 0|eng d9780735425569paperback9780735425576epub9780735425583epdf10.1063/9780735425590doi2022943596TEC021040bisacshSCI096000bisacshRamadurai, RanjithStrain Engineering in Functional Materials and DevicesRanjith Ramadurai; Saswata Bhattacharyya: Edited by Ranjith Ramadurai; Saswata BhattacharyyaMelville, New YorkAIP Publishing2023online resource (310 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierStrain Engineering in Crystalline Solids — First Principles Modeling of Strain Induced Effects in Functional Materials — Impact of Strain on the Electronic and Optoelectronic Properties of III-Nitride Semiconductor Heterostructures — Strain Engineering of Metal Insulator Transition in VO2 — Microscopic-Strain-Related Phenomena in Functional Oxides — Phase-Field Modeling of Ferroic Domains in Strained Structures — Substrate Strain Induced Effects on Multiferroic Epilayers — Elastic Stress Driven Instabilities in Thin Films
and their Assemblies — Rare Earth Transition Metal Based Giant Magnetostrictive Materials: An Interdisciplinary Perspective — Strain Engineering in 2-2 Multilayered Magneto-Electric (ME) nanocomposites — Perspective on Strain Effects on 2D Materials — Index.Strain Engineering in Functional Materials and Devices provides a comprehensive overview of fundamentals, applications, and recent developments in the field of strain tuning of multifunctional materials. It collates and summarizes interrelations between strain and various functional properties, characterization techniques, theoretical understanding of strain effects, and how the application strain can lead to novel functional properties. The book addresses the role of strain at multiple length scales and summarizes theoretical analysis of the same. Verification of theoretical analysis are supported by the chapters pertaining to thin film fabrication and nanocomposites. Strain Engineering in Functional Materials and Devices:
-- Provides extensive coverage of multifaceted aspects of strain engineering in functional materials
-- Delivers fundamental understanding of strain tuning of functional properties of materials
-- Summarizes recent developments and applications including first-principles/atomistic modeling, phase-field modeling, and state-of-the-art characterization techniques
Researchers, graduate students working in relevant areas of materials science and nanotechnology, and professionals working on smart materials and their applications will find this a relevant and useful resource.TECHNOLOGY & ENGINEERING / Materials Science/Thin Films, Surfaces & InterfacesbisacshSCIENCE / Mechanics/SolidsbisacshBhattacharyya, SaswataPrinted edition 9780735425569https://doi.org/10.1063/9780735425590
00160nam a22000615u 45009780735425613AIP Publishing20230316012314.0cr mn |||mna||230317t2023||||nyu||||gs 0|| 0|eng d9780735425606paperback9780735425637epub9780735425620epdf10.1063/9780735425613doi2022943597TEC031010bisacshTEC073000bisacshRen, JingzhengToward Better Photovoltaic Systems
Design, Simulation, Optimization, Analysis, and OperationsJingzheng Ren; Chang He; Lichung Dong: Edited by Jingzheng Ren; Chang He; Lichung DongMelville, New YorkAIP Publishing2023online resource (164 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierModeling and Simulation of Solar Photovoltaic (PV) System — Optimal Design of the Stand-Alone and Grid-Connected PV System — Multi-Objective Optimization of the Solar Photovoltaic System for Better Sustainability — Optimization of Solar Photovoltaic Hybrid Energy Systems — Reliability Analysis of Photovoltaic Systems — Monitoring, Fault Detection and Operations of Photovoltaic Systems — Frontiers of Photovoltaic Systems for Smart City.Toward Better Photovoltaic Systems: Design, Simulation, Optimization, Analysis, and Operations is a comprehensive introduction to simulation and design with a particular focus on optimization, analysis, evaluation, parameter estimation, and defect detection. It offers an in-depth analysis of the major applications of different optimization and design techniques. This book:
-- Systematically introduces design, simulation, optimization, analysis, and operations combined with the latest techniques and methods, with an emphasis on sustainability.
-- Extends PV power research by addressing trends in technologies, application of optimization algorithms in PV technologies, and efficient design and assessment.
-- Provides an effective assessment framework focused on sustainability
Researchers working on related energy issues for both private and public organizations and technicians and technology consultants in institutes, laboratories, R&D companies, manufacturing, and production factories will all find this a useful resource.TECHNOLOGY & ENGINEERING / Power Resources/Alternative & RenewablebisacshTECHNOLOGY & ENGINEERING / Systems EngineeringbisacshHe, Chang, Dong, LichungPrinted edition 9780735425606https://doi.org/10.1063/9780735425613
00160nam a22000615u 45009780735425743AIP Publishing20230317000170.0cr mn |||mna||230317t2023||||nyu||||gs 0|| 0|eng d9780735425729paperback9780735425750epub9780735425736epdf10.1063/9780735425743doi2022951488SCI024000bisacshTEC031000bisacshLi, MinghengEnergy Systems and Processes
Recent Advances in Design and ControlMingheng Li: Edited by Mingheng LiMelville, New YorkAIP Publishing2023online resource (334 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierMonetizing Shale Gas to Chemicals Under Mixed Uncertainty — Energy Efficiency Investigation of Natural Gas Hydrate Exploitation Integrated with Methane Reforming — Design and Optimization of Natural Gas Purification with Ionic Liquids — Adsorption Enhanced Reforming for High-Efficiency Hydrogen Generation — Heliostat Field Aiming Strategy Optimization with Post-Installation Calibration — Quantum Dots-Based Solar Cells for Potential Application — Toward Smart Energy Generation Using Economic Model Predictive Control — Cyberphysical Systems and Energy: A Discussion with Reference to an Enhanced Geothermal Process — Control-Oriented Hybrid Modeling Framework for Building Thermal Modeling — Data-Driven Adaptive Sparse Modeling of Chemical Process Systems — Modeling Biomass Degradation with Multiscale kMC Simulations — Modeling, Order-Reduction, and Controller Design of Hydraulic Fracturing.Energy Systems and Processes: Recent Advances in Design and Control addresses advanced systematic techniques in the design, control, operation, and optimization of complex energy systems. The book discusses recent advances in the study of energy systems and various aspects of technical challenges by using state-of-the-art systematic methods. It covers a broad range of energy topics, including traditional fossil fuels, renewable energy, clean energy production and storage, emerging non-traditional energy sources such as oil sands, shale gas, and natural gas hydrates, and energy-efficient techniques like HVAC/building control. This up-to-date book:
-- Includes the most recent developments in systems techniques including multi-scale modeling, model predictive control, and machine learning, as applied to a wide variety of energy systems
-- Focuses on how systematic strategies can be used to improve energy efficiency, economic performance, and safety
-- Presents thorough coverage of control approaches that align with the rising interest in AI and machine learning
Energy Systems and Processes: Recent Advances in Design and Control is an invaluable resource for graduate students working in energy system design, control, and optimization. It is also useful for practitioners working in the power and sustainable energy industries.SCIENCE / EnergybisacshTECHNOLOGY & ENGINEERING / Power Resources/GeneralbisacshPrinted edition 9780735425729https://doi.org/10.1063/9780735425743
00160nam a22000615u 45009780735425477AIP Publishing20230317013325.0cr mn |||mna||230317t2023||||nyu||||gs 0|| 0|eng d9780735425446paperback9780735425453epub9780735425460epdf10.1063/9780735425477doi2022943594SCI063000bisacshSCI063000bisacshTaşar, Mehmet FatihInternational Handbook of Physics Education Research: Learning Physics, TheMehmet Fatih Taşar; Paula R. L. Heron: Edited by Mehmet Fatih Taşar; Paula R. L. HeronMelville, New YorkAIP Publishing2023online resource (710 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierSUBJECT MATTER LEARNING — COGNITIVE, EPISTEMIC, AND AFFECTIVE THEORETICAL UNDERPINNINGS OF RESEARCH ON PHYSICS LEARNING — COORDINATION OF LEARNING GOALS AND TEACHING PRACTICES — Index.The International Handbook of Physics Education Research: Learning Physics covers the subject matter and cognitive aspects of physics learning. As the field of physics education research grows, it is increasingly difficult for newcomers to gain an appreciation of the major findings across all sub-domains, discern global themes, and recognize gaps in the literature. The International Handbook of Physics Education Research: Learning Physics incorporates the understanding of both physics and education concepts and provides an extensive review of the literature in a wide range of important topics. The International Handbook of Physics Education Research: Learning Physics includes:
-- Subject matter instruction and problem solving with specific topics including factors in student achievement in physics.
-- Cognitive aspects to learning physics, including collaborative learning, higher order learning, and fostering critical thinking skills.
-- Information about student interest, attitudes, motivation, values, beliefs, and opinions toward learning physics.
Readers will find this comprehensive treatment of the literature useful in understanding physics education research and extending to all the physical sciences including chemistry, mathematics, astronomy, and other related disciplines.SCIENCE / Study & TeachingbisacshSCIENCE / Study & TeachingbisacshHeron, Paula R. L.Printed edition 9780735425446https://doi.org/10.1063/9780735425477
00160nam a22000615u 45009780735425712AIP Publishing20230317016513.0cr mn |||mna||230317t2023||||nyu||||gs 0|| 0|eng d9780735425682paperback9780735425699epub9780735425705epdf10.1063/9780735425712doi2022950114TEC000000bisacshSCI055000bisacshTaşar, Mehmet FatihInternational Handbook of Physics Education Research: Teaching Physics, TheMehmet Fatih Taşar; Paula R. L. Heron: Edited by Mehmet Fatih Taşar; Paula R. L. HeronMelville, New YorkAIP Publishing2023online resource (584 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierEDUCATIONAL TECHNOLOGIES IN PHYSICS TEACHING — PHYSICS LEARNING ENVIRONMENTS — PHYSICS TEACHER EDUCATION — ASSESSMENT OF STUDENT LEARNING IN PHYSICS — Index.The International Handbook of Physics Education Research: Teaching Physics covers the topics of educational technologies, learning environments, teacher education, and assessment in relation to physics education. As the field of physics education research grows, it is increasingly difficult for newcomers to gain an appreciation of the major findings across all sub-domains, discern global themes, and recognize gaps in the literature. The current volume incorporates the understanding of both physics and education concepts and provides an extensive review the literature in a wide range of important topics. The International Handbook of Physics Education Research: Teaching Physics includes:
-- Various teaching perspectives including active learning, the modeling method, and teaching environments.
-- Distance/online education, formative and summative assessment, and assessment in online education.
-- Gender, race, and ethnicity equity.
Readers will find this comprehensive treatment of the literature useful in understanding physics education research and extending to all the physical sciences including chemistry, mathematics, astronomy, and other related disciplines.TECHNOLOGY & ENGINEERING / GeneralbisacshSCIENCE / Physics/GeneralbisacshHeron, Paula R. L.Printed edition 9780735425682https://doi.org/10.1063/9780735425712
00160nam a22000615u 45009780735425514AIP Publishing20230321016283.0cr mn |||mna||230317t2023||||nyu||||gs 0|| 0|eng d9780735425484paperback9780735425491epub9780735425507epdf10.1063/9780735425514doi2022943594TEC021000bisacshSCI055000bisacshTaşar, Mehmet FatihInternational Handbook of Physics Education Research: Special Topics, TheMehmet Fatih Taşar; Paula R. L. Heron: Edited by Mehmet Fatih Taşar; Paula R. L. HeronMelville, New YorkAIP Publishing2023online resource (780 pages)texttxtrdacontentcomputercrdamediaonline resourcecrrdacarrierEQUITY AND INCLUSION IN PHYSICS EDUCATION RESEARCH — THE HISTORY AND PHILOSOPHY OF PHYSICS IN PHYSICS EDUCATION — PHYSICS TEXTBOOKS — MATHEMATICS IN TEACHING AND LEARNING PHYSICS — PHYSICS EDUCATION RESEARCH: HISTORY, METHODOLOGIES, THEMES — Index.The International Handbook of Physics Education Research: Teaching Physics covers the topics of educational technologies, learning environments, teacher education, and assessment in relation to physics education. As the field of physics education research grows, it is increasingly difficult for newcomers to gain an appreciation of the major findings across all sub-domains, discern global themes, and recognize gaps in the literature. The current volume incorporates the understanding of both physics and education concepts and provides an extensive review the literature in a wide range of important topics. The International Handbook of Physics Education Research: Teaching Physics includes:
-- Various teaching perspectives including active learning, the modeling method, and teaching environments.
-- Distance/online education, formative and summative assessment, and assessment in online education.
-- Gender, race, and ethnicity equity.
Readers will find this comprehensive treatment of the literature useful in understanding physics education research and extending to all the physical sciences including chemistry, mathematics, astronomy, and other related disciplines.TECHNOLOGY & ENGINEERING / Materials Science/GeneralbisacshSCIENCE / Physics/GeneralbisacshHeron, Paula R. L.Printed edition 9780735425484https://doi.org/10.1063/9780735425514