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21 Ebeling, Werner Lectures on Quantum Statistics I09566 2019 eBook  
22 Shakura, Nikolay Accretion Flows in Astrophysics I09557 2018 eBook  
23 Tolstikhina, Inga Basic Atomic Interactions of Accelerated Heavy Ions in Matter I09546 2018 eBook  
24 Sigl, G??nter Astroparticle Physics: Theory and Phenomenology I09531 2017 eBook  
25 Bandrauk, Andre D Laser Filamentation I09434 2016 eBook  
26 Melzer, Andr?? Physics of Dusty Plasmas I09383 2019 eBook  
27 Girka, Volodymyr Surface Electron Cyclotron Waves in Plasmas I09379 2019 eBook  
28 Kostadinova, Evdokiya Georgieva Spectral Approach to Transport Problems in Two-Dimensional Disordered Lattices I09372 2018 eBook  
29 Nguyen-Kuok, Shi Theory of Low-Temperature Plasma Physics I09349 2017 eBook  
30 Capitelli, Mario Fundamental Aspects of Plasma Chemical Physics I09344 2016 eBook  
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21.    
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TitleLectures on Quantum Statistics : With Applications to Dilute Gases and Plasmas
Author(s)Ebeling, Werner;P??schel, Thorsten
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2019.
DescriptionX, 271 p. 49 illus : online resource
Abstract NoteMost of the matter in our universe is in a gaseous or plasma state. Yet, most textbooks on quantum statistics focus on examples from and applications in condensed matter systems, due to the prevalence of solids and liquids in our day-to-day lives. In an attempt to remedy that oversight, this book consciously focuses on teaching the subject matter in the context of (dilute) gases and plasmas, while aiming primarily at graduate students and young researchers in the field of quantum gases and plasmas for some of the more advanced topics. The majority of the material is based on a two-semester course held jointly by the authors over many years, and has benefited from extensive feedback provided by countless students and co-workers. The book also includes many historical remarks on the roots of quantum statistics: firstly because students appreciate and are strongly motivated by looking back at the history of a given field of research, and secondly because the spirit permeating this book has been deeply influenced by meetings and discussions with several pioneers of quantum statistics over the past few decades
ISBN,Price9783030057343
Keyword(s)1. Condensed materials 2. EBOOK 3. EBOOK - SPRINGER 4. Phase transformations (Statistical physics) 5. PLASMA (IONIZED GASES) 6. PLASMA PHYSICS 7. Quantum Gases and Condensates 8. STATISTICAL PHYSICS 9. Statistical Physics and Dynamical Systems
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22.     
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TitleAccretion Flows in Astrophysics
Author(s)Shakura, Nikolay
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2018.
DescriptionXX, 419 p. 81 illus., 19 illus. in color : online resource
Abstract NoteThis book highlights selected topics of standard and modern theory of accretion onto black holes and magnetized neutron stars. The structure of stationary standard discs and non-stationary viscous processes in accretion discs are discussed to the highest degree of accuracy analytic theory can provide, including relativistic effects in flat and warped discs around black holes. A special chapter is dedicated to a new theory of subsonic settling accretion onto a rotating magnetized neutron star. The book also describes supercritical accretion in quasars and its manifestation in lensing events. Several chapters cover the underlying physics of viscosity in astrophysical discs with some important aspects of turbulent viscosity generation. The book is aimed at specialists as well as graduate students interested in the field of theoretical astrophysics
ISBN,Price9783319930091
Keyword(s)1. ASTROPHYSICS 2. Astrophysics and Astroparticles 3. EBOOK 4. EBOOK - SPRINGER 5. Fluid- and Aerodynamics 6. FLUIDS 7. PLASMA (IONIZED GASES) 8. PLASMA PHYSICS
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23.     
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TitleBasic Atomic Interactions of Accelerated Heavy Ions in Matter : Atomic Interactions of Heavy Ions
Author(s)Tolstikhina, Inga;Imai, Makoto;Winckler, Nicolas;Shevelko, Viacheslav
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2018.
DescriptionXVI, 220 p. 108 illus., 16 illus. in color : online resource
Abstract NoteThis book provides an overview of the recent experimental and theoretical results on interactions of heavy ions with gaseous, solid and plasma targets from the perspective of atomic physics. The topics discussed comprise stopping power, multiple-electron loss and capture processes, equilibrium and non-equilibrium charge-state fractions in penetration of fast ion beams through matter including relativistic domain. It also addresses mean charge-states and equilibrium target thickness in ion-beam penetrations, isotope effects in low-energy electron capture, lifetimes of heavy ion beams, semi-empirical formulae for effective cross sections. The book is intended for researchers and graduate students working in atomic, plasma and accelerator physics
ISBN,Price9783319749921
Keyword(s)1. ATOMS 2. Atoms and Molecules in Strong Fields, Laser Matter Interaction 3. EBOOK 4. EBOOK - SPRINGER 5. Particle acceleration 6. Particle Acceleration and Detection, Beam Physics 7. PHYSICS 8. PLASMA (IONIZED GASES) 9. PLASMA PHYSICS
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24.     
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TitleAstroparticle Physics: Theory and Phenomenology
Author(s)Sigl, G??nter
PublicationParis, 1. Atlantis Press 2. Imprint: Atlantis Press, 2017.
DescriptionXXXIV, 861 p. 90 illus., 71 illus. in color : online resource
Abstract NoteThis books aims at giving an overview over theoretical and phenomenological aspects of particle astrophysics and particle cosmology. To be of interest for both students and researchers in neighboring fields of physics, it keeps a balance between well established foundations that will not significantly change in the future and a more in-depth treatment of selected subfields in which significant new developments have been taking place recently. These include high energy particle astrophysics, such as cosmic high energy neutrinos, the interplay between detection techniques of dark matter in the laboratory and in high energy cosmic radiation, axion-like particles, and relics of the early Universe such as primordial magnetic fields and gravitational waves. It also contains exercises and thus will be suitable for both introductory and advanced courses in astroparticle physics
ISBN,Price9789462392434
Keyword(s)1. ASTROPHYSICS 2. Astrophysics and Astroparticles 3. COSMOLOGY 4. EBOOK 5. EBOOK - SPRINGER 6. MATHEMATICAL PHYSICS 7. PLASMA (IONIZED GASES) 8. PLASMA PHYSICS 9. Theoretical, Mathematical and Computational Physics
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25.     
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TitleLaser Filamentation : Mathematical Methods and Models
Author(s)Bandrauk, Andre D;Lorin, Emmanuel;Moloney, Jerome V
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2016.
DescriptionXII, 216 p. 82 illus., 76 illus. in color : online resource
Abstract NoteThis book is focused on the nonlinear theoretical and mathematical problems associated with ultrafast intense laser pulse propagation in gases and in particular, in air. With the aim of understanding the physics of filamentation in gases, solids, the atmosphere, and even biological tissue, specialists in nonlinear optics and filamentation from both physics and mathematics attempt to rigorously derive and analyze relevant non-perturbative models. Modern laser technology allows the generation of ultrafast (few cycle) laser pulses, with intensities exceeding the internal electric field in atoms and molecules (E=5x109 V/cm or intensity I = 3.5 x 1016 Watts/cm2 ). The interaction of such pulses with atoms and molecules leads to new, highly nonlinear nonperturbative regimes, where new physical phenomena, such as High Harmonic Generation (HHG), occur, and from which the shortest (attosecond - the natural time scale of the electron) pulses have been created. One of the major experimental discoveries in this nonlinear nonperturbative regime, Laser Pulse Filamentation, was observed by Mourou and Braun in 1995, as the propagation of pulses over large distances with narrow and intense cones. This observation has led to intensive investigation in physics and applied mathematics of new effects such as self-transformation of these pulses into white light, intensity clamping, and multiple filamentation, as well as to potential applications to wave guide writing, atmospheric remote sensing, lightning guiding, and military long-range weapons. The increasing power of high performance computers and the mathematical modelling and simulation of photonic systems has enabled many new areas of research. With contributions by theorists and mathematicians, supplemented by active experimentalists who are experts in the field of nonlinear laser molecule interaction and propagation, Laser Filamentation sheds new light on scientific and industrial applications of modern lasers
ISBN,Price9783319230849
Keyword(s)1. Applications of Nonlinear Dynamics and Chaos Theory 2. EBOOK 3. EBOOK - SPRINGER 4. LASERS 5. MATHEMATICAL PHYSICS 6. Optics, Lasers, Photonics, Optical Devices 7. PHOTONICS 8. PLASMA (IONIZED GASES) 9. PLASMA PHYSICS 10. REMOTE SENSING 11. Remote Sensing/Photogrammetry 12. STATISTICAL PHYSICS
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26.     
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TitlePhysics of Dusty Plasmas : An Introduction
Author(s)Melzer, Andr??
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2019.
DescriptionX, 235 p. 127 illus., 108 illus. in color : online resource
Abstract NoteColloidal plasmas - a still emerging field of plasma physics - enable the study of basic plasma properties on a microscopic kinetic level and allow the visualization of collective plasma phenomena, like oscillations and waves. Moreover, a vast number of novel phenomena are found in these systems, ranging from Coulomb crystallization to new types of forces and waves. Last but not least, they shed a new light on various traditional aspects of plasma physics such as shielding or the mechanism of acoustic waves in plasmas, thus providing new insight into the basic foundations of plasma physics.These course-based and self-contained lecture notes provide a general introduction to this active and growing field to students and nonspecialists, requiring only basic prior knowledge in plasma physics.
ISBN,Price9783030202606
Keyword(s)1. Applied and Technical Physics 2. EBOOK 3. EBOOK - SPRINGER 4. PHYSICS 5. PLASMA (IONIZED GASES) 6. PLASMA PHYSICS 7. Solar and Heliospheric Physics 8. SOLAR SYSTEM
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27.     
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TitleSurface Electron Cyclotron Waves in Plasmas
Author(s)Girka, Volodymyr;Girka, Igor;Thumm, Manfred
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2019.
DescriptionX, 198 p. 54 illus : online resource
Abstract NoteThis book is the first of its kind devoted to surface waves propagating across an external static magnetic field at harmonics of the electron cyclotron frequency. Based on comprehensive theoretical studies carried out over the course of about forty years, it presents unique material on various characteristics of these transverse waves, namely, dispersion properties and their dependence on numerous design peculiarities of plasma waveguides; damping due to interaction with the plasma surface (the kinetic channel) and collisions between plasma particles (the Ohmic channel); interaction with flows of charged particles moving above the plasma surface; parametric excitation due to the effect of an external radiofrequency field; and their power transfer for sustaining gas discharges. Clarifying numerous complicated mathematical issues it is a valuable resource for postgraduate students and experts in plasma physics, electromagnetic waves, and the kinetic theory of plasmas
ISBN,Price9783030171155
Keyword(s)1. Applied and Technical Physics 2. CLASSICAL ELECTRODYNAMICS 3. EBOOK 4. EBOOK - SPRINGER 5. ELECTRODYNAMICS 6. OPTICS 7. Particle acceleration 8. Particle Acceleration and Detection, Beam Physics 9. PHYSICS 10. PLASMA (IONIZED GASES) 11. PLASMA PHYSICS
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28.     
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TitleSpectral Approach to Transport Problems in Two-Dimensional Disordered Lattices : Physical Interpretation and Applications
Author(s)Kostadinova, Evdokiya Georgieva
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2018.
DescriptionXIII, 107 p. 39 illus., 36 illus. in color : online resource
Abstract NoteThis thesis introduces the spectral approach to transport problems in infinite disordered systems characterized by Anderson-type Hamiltonians. The spectral approach determines (with probability one) the existence of extended states for nonzero disorder in infinite lattices of any dimension and geometry. Here, the author focuses on the critical 2D case, where previous numerical and experimental results have shown disagreement with theory. Not being based on scaling theory, the proposed method avoids issues related to boundary conditions and provides an alternative approach to transport problems where interaction with various types of disorder is considered. Beginning with a general overview of Anderson-type transport problems and their relevance to physical systems, it goes on to discuss in more detail the most relevant theoretical, numerical, and experimental developments in this field of research. The mathematical formulation of the innovative spectral approach is introduced together with a physical interpretation and discussion of its applicability to physical systems, followed by a numerical study of delocalization in the 2D disordered honeycomb, triangular, and square lattices. Transport in the 2D honeycomb lattice with substitutional disorder is investigated employing a spectral analysis of the quantum percolation problem. Next, the applicability of the method is extended to the classical regime, with an examination of diffusion of lattice waves in 2D disordered complex plasma crystals, along with discussion of proposed future developments in the study of complex transport problems using spectral theory
ISBN,Price9783030022129
Keyword(s)1. CONDENSED MATTER 2. CONDENSED MATTER PHYSICS 3. EBOOK 4. EBOOK - SPRINGER 5. Mathematical Methods in Physics 6. MATHEMATICAL PHYSICS 7. PARTIAL DIFFERENTIAL EQUATIONS 8. PHYSICS 9. PLASMA (IONIZED GASES) 10. PLASMA PHYSICS 11. STATISTICAL PHYSICS 12. Statistical Physics and Dynamical Systems
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29.     
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TitleTheory of Low-Temperature Plasma Physics
Author(s)Nguyen-Kuok, Shi
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2017.
DescriptionXV, 495 p. 253 illus : online resource
Abstract NoteThis book offers the reader an overview of the basic approaches to the theoretical description of low-temperature plasmas, covering numerical methods, mathematical models and modeling techniques. The main methods of calculating the cross sections of plasma particle interaction and the solution of the kinetic Boltzmann equation for determining the transport coefficients of the plasma are also presented. The results of calculations of thermodynamic properties, transport coefficients, the equilibrium particle-interaction cross sections and two-temperature plasmas are also discussed. Later chapters consider applications, and the results of simulation and calculation of plasma parameters in induction and arc plasma torches are presented. The complex physical processes in high-frequency plasmas and arc plasmas, the internal and external parameters of plasma torches, near-electrode processes, heat transfer, the flow of solid particles in plasmas and other phenomena are considered. The book is intended for professionals involved in the theoretical study of low-temperature plasmas and the design of plasma torches, and will be useful for advanced students in related areas
ISBN,Price9783319437217
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Mathematical Applications in the Physical Sciences 4. MATHEMATICAL PHYSICS 5. Numerical and Computational Physics, Simulation 6. PHYSICS 7. PLASMA (IONIZED GASES) 8. PLASMA PHYSICS
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30.    
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TitleFundamental Aspects of Plasma Chemical Physics : Kinetics
Author(s)Capitelli, Mario;Celiberto, Roberto;Colonna, Gianpiero;Esposito, Fabrizio;Gorse, Claudine;Hassouni, Khaled;Laricchiuta, Annarita;Longo, Savino
PublicationNew York, NY, 1. Imprint: Springer 2. Springer New York, 2016.
DescriptionXVI, 318 p. 184 illus., 138 illus. in color : online resource
Abstract NoteDescribing non-equilibrium "cold" plasmas through a chemical physics approach, this book uses the state-to-state plasma kinetics, which considers each internal state as a new species with its own cross sections. Extended atomic and molecular master equations are coupled with Boltzmann and Monte Carlo methods to solve the electron energy distribution function. Selected examples in different applied fields, such as microelectronics, fusion, and aerospace, are presented and discussed including the self-consistent kinetics in RF parallel plate reactors, the optimization of negative ion sources and the expansion of high enthalpy flows through nozzles of different geometries. The book will cover the main aspects of the state-to-state kinetic approach for the description of nonequilibrium cold plasmas, illustrating the more recent achievements in the development of kinetic models including the self-consistent coupling of master equations and Boltzmann equation for electron dynamics. To give a complete portrayal, the book will assess fundamental concepts and theoretical formulations, based on a unified methodological approach, and explore the insight in related scientific problems still opened for the research community
ISBN,Price9781441981851
Keyword(s)1. CLASSICAL MECHANICS 2. EBOOK 3. EBOOK - SPRINGER 4. MATHEMATICAL PHYSICS 5. MECHANICS 6. PHYSICAL CHEMISTRY 7. PLASMA (IONIZED GASES) 8. PLASMA PHYSICS 9. Theoretical, Mathematical and Computational Physics
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