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1 Matsushita, Teruo Electricity I12932 2023 eBook  
2 Huang, Yijing Towards the Optical Control of Resonantly Bonded Materials I12929 2023 eBook  
3 Zhang, Chuan Radio-Frequency Quadrupole Accelerators I12906 2023 eBook  
4 Mohd Salleh, Mohd Arif Anuar Proceedings of the Green Materials and Electronic Packaging Interconnect Technology Symposium I12875 2023 eBook  
5 Hamaguchi, Chihiro Basic Semiconductor Physics I12871 2023 eBook  
6 Patel, Shobhit K Recent Advances in Graphene Nanophotonics I12776 2023 eBook  
7 Sigov, Alexander S Multilayer Magnetic Nanostructures I12734 2023 eBook  
8 Umantsev, Alexander Field Theoretic Method in Phase Transformations I12733 2023 eBook  
9 Di Ventra, Massimiliano Memristors and Memelements I12667 2023 eBook  
10 Nikhil Kumar, C. S Magnonic Devices I12666 2023 eBook  
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TitleElectricity : Electromagnetism and Electric Circuits
Author(s)Matsushita, Teruo
PublicationCham, 1. Imprint: Springer 2. Springer Nature Switzerland, 2023.
DescriptionIX, 295 p. 296 illus : online resource
Abstract NoteThis book leads students to learn electromagnetism and then moves to chapters about electric circuits. It aims to give an understanding of electromagnetism which gives a fast way to master the features of circuit elements such as resistors, capacitors, and coils that compose electric circuits. The author provides chapters on electromagnetism and electric circuits separately and gives a chapter explaining the correlation between them in detail. In the chapters for electric circuit, DC electric circuits, transient and steady response of AC electric circuits are treated. AC circuit theory is introduced for describing the phenomena in circuits. Theoretical treatments such as branch current method, closed current method, and node potential method are also introduced to show the validity of solution methods that have been used in the book. The book can serve as a compact textbook for lectures, as an introduction for hardware system and electric control systems,and mechanical systems. Chapters for electromagnetism or ones for electric circuits are suitable for a lecture over a semester
ISBN,Price9783031440021
Keyword(s)1. CLASSICAL ELECTRODYNAMICS 2. EBOOK - SPRINGER 3. ELECTRODYNAMICS 4. ELECTRONIC CIRCUITS 5. Electronic Circuits and Systems 6. ELECTRONIC DEVICES 7. SOLID STATE PHYSICS
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2.     
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TitleTowards the Optical Control of Resonantly Bonded Materials : An Ultrafast X-Ray Study
Author(s)Huang, Yijing
PublicationCham, 1. Imprint: Springer 2. Springer Nature Switzerland, 2023.
DescriptionXII, 159 p. 69 illus., 64 illus. in color : online resource
Abstract NoteThis thesis describes key contributions to the fundamental understanding of materials structure and dynamics from a microscopic perspective. In particular, the thesis reports several advancements in time-domain methodologies using ultrafast pulses from X-ray free-electron lasers (FEL) to probe the interactions between electrons and phonons in photoexcited materials. Using femtosecond time-resolved X-ray diffraction, the author quantifies the coherent atomic motion trajectory upon sudden excitation of carriers in SnSe. This allows the reconstruction of the nonequilibrium lattice structure and identification of a novel lattice instability towards a higher-symmetry structure not found in equilibrium. This is followed by an investigation of the excited-state phonon dispersion in SnSe using time-resolved X-ray diffuse scattering which enables important insight into how photoexcitation alters the strength of specific bonds leading to the novel lattice instability observed in X-ray diffraction. Finally, by combining ultrafast X-ray diffraction and ARPES, the author performs quantitative measurements of electron-phonon coupling in Bi2Te3 and Bi2Se3. The findings highlight the importance of time-resolved X-ray scattering techniques based on FELs, which reveals the details of interplay between electron orbitals, atomic bonds, and structural instabilities. The microscopic information of electron phonon interaction obtained from these methods can rationalize ways to control materials and to design their functional properties
ISBN,Price9783031428265
Keyword(s)1. CONDENSED MATTER 2. EBOOK - SPRINGER 3. ELECTRONIC DEVICES 4. LASER 5. Laser-Matter Interaction 6. LASERS 7. OPTICAL SPECTROSCOPY 8. Phase Transition and Critical Phenomena 9. SOLID STATE PHYSICS 10. Structure of Condensed Matter
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TitleRadio-Frequency Quadrupole Accelerators : From Protons to Uranium Ions
Author(s)Zhang, Chuan
PublicationCham, 1. Imprint: Springer 2. Springer Nature Switzerland, 2023.
DescriptionXXIII, 163 p. 150 illus., 144 illus. in color : online resource
Abstract NoteThis book guides readers into the realm of particle accelerators, which have served as indispensable tools for fundamental research, energy development, medical therapy, industrial applications, national security, etc., since 1924. Towards a new generation of high power proton and ion accelerators, challenges often come from space charge effects, which are most pronounced in low-velocity beams. This book focuses on Radio-Frequency Quadrupole (RFQ) accelerators, one of the most popular front-end structures for accelerator facilities, and their beam physics. Uncovering the limitations of the classic design methods, novel approaches to achieve efficient RFQ accelerators with high beam quality will be presented. In addition, new ideas for possible future developments, such as how to realize long RFQs with high performance and how RFQs can be applied for much higher beam-velocities to shorten large-scale accelerators, will be introduced. To provide a general overview of the research and development of RFQs accelerating particle species from protons to uranium ions, this book uses over 10 real examples developed or proposed in the twenty-first century for various facilities of different dimensions (from large scale e.g. a collider to small scale e.g. university experimental setups). With its rich content and comprehensive scope, this book is an invaluable reference for researchers and graduate students interested in RFQ accelerators and the intricacies of space charge physics in low-velocity beams
ISBN,Price9783031409677
Keyword(s)1. Accelerator Physics 2. CLASSICAL ELECTRODYNAMICS 3. EBOOK - SPRINGER 4. ELECTRODYNAMICS 5. ELECTRONIC DEVICES 6. ELECTRONICS 7. Electronics and Microelectronics, Instrumentation 8. PARTICLE ACCELERATORS 9. PARTICLE PHYSICS 10. PARTICLES (NUCLEAR PHYSICS) 11. SOLID STATE PHYSICS
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TitleProceedings of the Green Materials and Electronic Packaging Interconnect Technology Symposium : EPITS 2022, 14-15 September, Langkawi, Malaysia
Author(s)Mohd Salleh, Mohd Arif Anuar;Che Halin, Dewi Suriyani;Abdul Razak, Kamrosni;Ramli, Mohd Izrul Izwan
PublicationSingapore, 1. Imprint: Springer 2. Springer Nature Singapore, 2023.
DescriptionXLI, 875 p. 475 illus., 386 illus. in color : online resource
Abstract NoteThis book presents peer reviewed articles from the Green Materials and Electronic Packaging Interconnect Technology Symposium, (EPITS 2022), held in Langkawi, Malaysia on 14th and 15th of Sept, 2022. It brings together packaging experts to share and exchange ideas in electronics technology. Topics covered in this volume include, but are not limited to; (1) Green materials and technology, (2) Emerging interconnect materials and technologies,(3) Non-solder interconnect materials at chip and package levels, (4) Fundamental materials behavior for electronic packaging materials, (5) Advanced characterization methods as applied to electronic packaging technology, (6) Developments in high temperature Pb-free solders and associated interconnects for automotive and power electronics, (7) Surface coating materials & (8) Advanced materials
ISBN,Price9789811992674
Keyword(s)1. EBOOK - SPRINGER 2. ELECTRONIC DEVICES 3. ELECTRONICS 4. Electronics and Microelectronics, Instrumentation 5. Green chemistry 6. SOLID STATE PHYSICS 7. Surface and Interface and Thin Film 8. Surfaces (Physics) 9. Sustainability
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TitleBasic Semiconductor Physics
Author(s)Hamaguchi, Chihiro
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2023.
DescriptionXV, 785 p. 344 illus., 343 illus. in color : online resource
Abstract NoteThis textbook presents a detailed description of basic semiconductor physics, covering a wide range of important phenomena in semiconductors, from simple to advanced. It introduces and explains four different methods of energy band calculations in the full band region and covers fundamental topics such as the effective mass approximation and electron motion in a periodic potential, the Boltzmann transport equation, and deformation potentials used for the analysis of transport properties. The text also examines experimental and theoretical analyses of cyclotron resonance in detail and reviews essential optical and transport properties, while covering optical transitions, electron???phonon interaction, and electron mobility. It presents numerical calculations of scattering rate, relaxation time, and mobility for typical semiconductors with bulk, quantum well and HEMT structures including wideband gap materials such as GaN and SiC in addition to IV and III-V semiconductors. The updated fourth edition includes coverage of new topics such as surface-modulated superlattices, Wannier???Stark effect, Bloch oscillation, wide band gap semiconductors, and photonic crystals. Featuring full-color diagrams calculated with updated physical parameters, as well as chapter-end problems and solutions, this tried and tested textbook on the basics of semiconductors physics is the cornerstone to any graduate or upper-level undergraduate course on the subject
ISBN,Price9783031255113
Keyword(s)1. Characterization and Analytical Technique 2. EBOOK - SPRINGER 3. ELECTRONIC DEVICES 4. MATERIALS 5. OPTICAL MATERIALS 6. PHOTONIC CRYSTALS 7. QUANTUM PHYSICS 8. SEMICONDUCTORS 9. SOLID STATE PHYSICS
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TitleRecent Advances in Graphene Nanophotonics
Author(s)Patel, Shobhit K;Taya, Sofyan A;Das, Sudipta;Vasu Babu, K
PublicationCham, 1. Imprint: Springer 2. Springer Nature Switzerland, 2023.
DescriptionVIII, 375 p. 136 illus., 116 illus. in color : online resource
Abstract NoteThere are growing advantages to the use of graphene-based nanophotonics in communication, sensing, security, safety, spectroscopy, manufacturing, biomedicine, agriculture, imaging, and other fields. These advantages, as well as the numerous challenges associated with this technology and proposed solutions to these challenges, are summarized in this book. The key objective of the book is to serve as a single-source reference for the rapidly expanding application aspects of the technology of graphene-based nanophotonics, as well as the number of modules required for their successful implementation. This book seeks to give readers a comprehensive understanding of several elements of graphene-based nanophotonics, such as emerging application areas, the design and modelling of sensors, absorbers, optical fiber, encoders, etc. A complete view of the progress and breakthroughs in novel materials for sensing, detecting and encoding technology is presented. The book also emphasizes the consequences of THz signals on human health, as well as the environmental components of THz. This book will be of tremendous value for those with an interest in electronic engineering, particularly those keeping an eye on this emerging technology
ISBN,Price9783031289422
Keyword(s)1. CONDENSED MATTER 2. CONDENSED MATTER PHYSICS 3. EBOOK - SPRINGER 4. ELECTRONIC DEVICES 5. Nanobiotechnology 6. Nanophotonics 7. Nanophotonics and Plasmonics 8. OPTICAL MATERIALS 9. Plasmonics 10. SEMICONDUCTORS 11. SOLID STATE PHYSICS
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TitleMultilayer Magnetic Nanostructures : Properties and Applications
Author(s)Sigov, Alexander S
PublicationSingapore, 1. Imprint: Springer 2. Springer Nature Singapore, 2023.
DescriptionXI, 137 p. 78 illus., 14 illus. in color : online resource
Abstract NoteThis book presents relevant issues for the development of computer technology in general and civil aviation in particular, related to the promising task of developing magnetoresistive memory. In modern conditions of constantly increasing air traffic intensity, it is necessary to use both on board the aircraft and in ground services computing devices that guarantee the required level of flight safety. The book shows that in the multilayer ferromagnet-antiferromagnet system, the behavior of magnetic parameters in layers of nanometer thickness is largely determined by frustrations. The monograph provides not only a complete analysis of the current state of magnetic nanostructures but also predicts new types generated by exchange interaction frustrations. The phase diagrams "layer thickness (layers)???roughness" of a thin ferromagnetic film on an antiferromagnetic substrate and a spin-valve system ferromagnet-antiferromagnet-ferromagnet are constructed taking into account the energy of single-ion anisotropy. The book presents experimental results that confirm the existence of a new type of domain walls. It is shown that the detected domain walls appear exactly at the locations of the atomic steps, and their thickness increases in proportion to the film thickness with a proportionality coefficient of the order of one. Special attention using mathematical models is placed for optimal orientation of spins at a smooth interface in the case of a compensated cross section of an antiferromagnet and an uncompensated cross section. The constructed phase diagrams and models are compared with the experiments. It is thus concluded that scanning tunneling microscopy (STM) makes it possible to study domain walls generated by frustration on the surface of the structure
ISBN,Price9789811962462
Keyword(s)1. Aerospace engineering 2. Aerospace Technology and Astronautics 3. ASTRONAUTICS 4. CONDENSED MATTER 5. CONDENSED MATTER PHYSICS 6. EBOOK - SPRINGER 7. ELECTRONIC DEVICES 8. MAGNETIC MATERIALS 9. MATERIALS 10. MICROSCOPY 11. SOLID STATE PHYSICS
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TitleField Theoretic Method in Phase Transformations
Author(s)Umantsev, Alexander
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2023.
DescriptionXXV, 503 p. 1 illus : online resource
Abstract NoteThis book describes a novel and popular method for the theoretical and computational study of phase transformations and materials processing in condensed and soft matter. The field theoretic method for the study of phase transformations in material systems, also known as the phase-field method, allows one to analyze different stages of transformations within a unified framework. It has received significant attention in the materials science community due to many recent successes in solving or illuminating important problems. In a single volume, this book addresses the fundamentals of the method starting from the basics of the field theoretic method along with its most important theoretical and computational results and some of the most advanced recent results and applications. Now in a revised and expanded second edition, the text is updated throughout and includes material on the classical theory of phase transformations. This book serves as both a primer in the area of phase transformations for those new to the field and as a guide for the more seasoned researcher. It is also of interest to historians of physics
ISBN,Price9783031296055
Keyword(s)1. Applications of Mathematics 2. CONDENSED MATTER 3. EBOOK - SPRINGER 4. ELECTRONIC DEVICES 5. MATERIALS SCIENCE 6. MATHEMATICS 7. Mechanics, Applied 8. Phase Transitions and Multiphase Systems 9. Solid Mechanics 10. SOLID STATE PHYSICS 11. SOLIDS
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TitleMemristors and Memelements : Mathematics, Physics and Fiction
Author(s)Di Ventra, Massimiliano;Pershin, Yuriy V
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2023.
DescriptionXIII, 62 p. 21 illus., 13 illus. in color : online resource
Abstract NoteThis book, written by two pioneers in the field, provides a clear and concise description of memristors and other memory elements. It stresses the difference between their mathematical definition and physical reality. The reader will then be able to distinguish between what is experimentally realizable and various fictitious claims that plague the scientific literature. The discussion is kept simple enough that the book should be easily accessible not only to graduate students and researchers in Physics and Engineering, but also to undergraduate students interested in this topic.
ISBN,Price9783031256257
Keyword(s)1. EBOOK - SPRINGER 2. ELECTRONIC CIRCUITS 3. Electronic Circuits and Systems 4. ELECTRONIC DEVICES 5. MATERIALS 6. Materials for Devices 7. SOLID STATE PHYSICS
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TitleMagnonic Devices : Numerical Modelling and Micromagnetic Simulation Approach
Author(s)Nikhil Kumar, C. S
PublicationCham, 1. Imprint: Springer 2. Springer Nature Switzerland, 2023.
DescriptionXII, 81 p. 64 illus., 63 illus. in color : online resource
Abstract NoteThis book briefly looks at numerical modeling and micromagnetic simulation results of magnonic crystals, which are periodically modulated magnonic devices regarded as the magnetic counterpart of photonic crystals with spin waves acting as the information carrier. Since the wavelength of the spin wave is several orders of magnitude shorter than that of electromagnetic waves of the same frequency, magnonic crystals are promising candidates for miniaturization, especially in the fields of data storage and processing. The book begins by describing the dispersion relation of dipolar spin waves in a magnonic curved waveguide, solving Walker's equation in cylindrical coordinates, and then calculating the dispersion of exchange spin waves using perturbation theory. It describes simulated nano-contact-driven spin wave excitations in a magnonic cavity, featuring a design of an antidot magnonic crystal around the nano-contact, with the frequency of the spin wave mode generated lying within the band gap of the magnonic crystal. The proposed device behaves as a SWASER???Spin Wave Amplification by the Stimulated Emission of Radiation. This book will find interest among researchers and practitioners interested in the modeling, simulation, and design of novel magnonic devices
ISBN,Price9783031226656
Keyword(s)1. Computational Materials Science 2. EBOOK - SPRINGER 3. ELECTRONIC DEVICES 4. MAGNETISM 5. MATERIALS SCIENCE 6. Nanoelectromechanical systems 7. Nanoscale Devices 8. SOLID STATE PHYSICS 9. SPINTRONICS
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