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1 Yanpeng Zhang Multi-wave mixing processes I01056 2009 eBook  
2 N. Akhmediev (ed.) Dissipative solitons I00987 2008 eBook  
3 A. Buchleitner (ed.) Entanglement and decoherence I00924 2009 eBook  
4 Kamakhya Prasad Ghatak Einstein relation in compound semiconductors and their nanostructures I00921 2009 eBook  
5 Noise-induced transitions I00840 2006 eBook  
6 Gordon W.F. Drake (ed.) Springer handbook of atomic, molecular, and optical physics I00716 2006 eBook  
7 Miguel Orszag Quantum optics I00519 2008 eBook  
8 Steven Beeson Patterns of light I00518 2008 eBook  
9 N. Akhmediev (ed.) Dissipative solitons I00371 2005 eBook  
10 Fedir T. Vasko Quantum kinetic theory and applications I00317 2005 eBook  
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TitleMulti-wave mixing processes : from ultrafast polarization beats to electromagnetically induced transparency
Author(s)Yanpeng Zhang;Min Xiao
PublicationBerlin, Springer, 2009.
Description1 online resource (xii, 319 p.) : ill
Abstract NoteDiscusses the interactions of efficient multi-wave mixing (MWM) processes enhanced by atomic coherence in multilevel atomic systems. This book is suitable for researchers, advanced undergraduate and graduate students in Nonlinear Optics
Contents NoteIntroduction -- Femtosecond polarization beats -- Attosecond polarization beats -- Heterodyne/homodyne detection of MWM -- Raman- and Rayleigh-enhanced polarization beats -- Coexistence of MWM processes via EIT windows -- Interactions of MWM processes -- Multi-dressed MWM processes
NotesIncludes bibliographical references and index
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. ELECTROMAGNETIC WAVES 4. NONLINEAR OPTICS 5. Optical Spectroscopy, Ultrafast Optics 6. Picosecond pulses 7. Quantum Optics, Quantum Electronics, Nonlinear Optics 8. TECHNOLOGY & ENGINEERING
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2.     
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TitleDissipative solitons : from optics to biology and medicine
Author(s)N. Akhmediev (ed.);A. Ankiewicz (ed.)
PublicationBerlin, Springer, 2008.
Description1 online resource (xiii, 477 p.) : ill
NotesIncludes bibliographical references and index
Keyword(s)1. Applications of Mathematics 2. BIOLOGY 3. EBOOK 4. EBOOK - SPRINGER 5. Energy dissipation 6. Laser Technology and Physics, Photonics 7. Optics and Photonics 8. Quantum Optics, Quantum Electronics, Nonlinear Optics 9. QUANTUM THEORY 10. SOLITONS
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3.     
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TitleEntanglement and decoherence : foundations and modern trends
Author(s)A. Buchleitner (ed.);C. Viviescas (ed.);M. Tiersch (ed.)
PublicationBerlin, Springer, 2009.
Description1 online resource (x, 320 p.) : ill
Contents NoteGeometry of state spaces / A. Uhlmann, B. Crell -- Basic concepts of entangled states / F. Mintert, C. Viviescas, A. Buchleitner -- Topology and quantum computing / L.H. Kauffman, S.J. Lomonaco Jr. -- Enganglement in phase space / A.M. Ozorio de Almeida -- Introduction to decoherence theory / K. Hornberger -- Diffusive spin transport / C.A. M�uller
NotesIncludes bibliographical references and index
Keyword(s)1. COHERENT STATES 2. EBOOK 3. EBOOK - SPRINGER 4. Information and Communication, Circuits 5. Koh�arenz 6. Quantenmechanisches System 7. Quantum Computing, Information and Physics 8. Quantum Optics, Quantum Electronics, Nonlinear Optics 9. QUANTUM PHYSICS 10. QUANTUM THEORY 11. Verschr�ankter Zustand
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4.     
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TitleEinstein relation in compound semiconductors and their nanostructures
Author(s)Kamakhya Prasad Ghatak;Sitangshu Bhattacharya;Debashis De
PublicationBerlin, Springer, 2009.
Description1 online resource (xx, 457 p.) : ill
NotesTitle from PDF title page (ebrary, viewed Oct. 19, 2009). -Includes bibliographical references and indexes
Keyword(s)1. Compound semiconductors 2. CONDENSED MATTER 3. EBOOK 4. EBOOK - SPRINGER 5. Einstein-Relation 6. Nanostructured materials 7. Nanostruktur 8. Physics and Applied Physics in Engineering 9. Quantum Optics, Quantum Electronics, Nonlinear Optics 10. TECHNOLOGY & ENGINEERING 11. Verbindungshalbleiter
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5.     
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TitleNoise-induced transitions : theory and applications in physics, chemistry, and biology
PublicationBerlin, Springer-Verlag, 2006.
Description1 online resource
Abstract NoteDevelops and explains the foundations of noise-induced processes. Following an introduction to the mathematical tools, this book analyzes the occurrence and the properties of noise-induced transitions for rapidly fluctuating environments describable by the white-noise idealization. It considers more realistic and general types of colored noises
Contents NoteIntroduction; Elements of Probability Theory; Stochastic Models of Environmental Fluctuations; Markovian Diffusion Processes; Stochastic Differential Equations; Noise-Induced Nonequilibrium Phase Transitions; Noise-Induced Transitions in Physics, Chemistry, and Biology; External Colored Noise; Markovian Dichotomous Noise: An Exactly Soluble Colored-Noise Case; The Symbiosis of Noise and Order -- Concluding Remarks
NotesIncludes bibliographical references and index
Keyword(s)1. Applications of Mathematics 2. Biochemistry, general 3. COMPLEXITY 4. EBOOK 5. EBOOK - SPRINGER 6. Math. Applications in Chemistry 7. NOISE 8. Phase transformations (Statistical physics) 9. Quantum Optics, Quantum Electronics, Nonlinear Optics 10. STATISTICAL PHYSICS 11. STOCHASTIC PROCESSES
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6.     
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TitleSpringer handbook of atomic, molecular, and optical physics
Author(s)Gordon W.F. Drake (ed.)
PublicationNew York, Springer, 2006.
Description1 online resource (lviii, 1504 pages) : illustrations
Contents NoteUnits and constants -- PART A: MATHEMATICAL METHODS: Angular momentum theory -- Group theory of atomic shells -- Dynamical groups -- Perturbation theory -- Second quantization -- Density matices -- Computation techniques -- Hydrogenic wave functions -- PART B: ATOMS: Atomic spectroscopy -- High precision calculations for helium -- Atomic multipoles -- Atoms in strong fields -- Rydberg atoms -- Rydberg atoms for strong static fields -- Hyperfine structure -- Precision oscillator strength and lifetime measurements -- Spectroscopy of ions using fast beams and ion traps -- Line shapes and radiation transfer -- Thomas-Fermi and other density-functional theories -- Atomic structure: multiconfiguration Hartress--Fock theories -- Relativistic atomic structure -- Many-body theory of atomic structure and processes -- Photoionization of atoms -- Autoionization -- Green's functions of field theory -- Quantum electrodynamics -- Tests of fundamental physics -- Parity nonconserving effects in atoms -- Atomic clocks and constraints on variations of fundamental constrants -- PART C: MOLECULES: Molecular structures -- Molecular symmetry and dynamics -- Spectroscopic techniques: lasers -- Spectroscopic techniques: cavity-enhanced methods -- Spectroscopic techniques: ultraviolet -- PART D: Elastic scattering: classical, quantal, and semiclassical -- Orientation and alignment in atomic and molecular collisions -- Electron-atom, electron-ion, and electron-molecule collisions -- Positron collisons -- Adiabatic and diabatic collision processes at low energies -- Ion-Atom and atom-atom collisions -- Ion-atom charge transfer reactions at low energies -- Continuum distorted wave and Wannier methods -- Ionization in high energy ion-atom collisions -- Electron-ion and ion-ion recombination -- Dielectronic recombination -- Rydberg collision: binary encounter, born and impulse approximations -- Mass transfer at high energy: Thomas peak -- Classical trajectory and Monte Carlo technique -- Collision broadening of spectral lines -- PART E: SCATTERING EXPERIMENTS: Photodetachment -- Photon-atom interaction: low energy -- Photon-atom interaction: intermediate energies -- Electron-atom and electron-molecule collisions -- Ion-atom scattering experiments: low energy -- Ion-atom collisiions: high energy -- Reactive scattering -- Ion-molecule reactions -- PART F: QUANTUM OPTICS: Light-matter interaction -- Absorption and gain spectra -- Laser principles -- Theories of lasers -- Nonlinear optics -- Coherent transients -- Multiphoton and strong-field processes -- Cooling and trapping -- Quantum degenerate gases -- De Broglie optics -- Quantized field effects -- Entangled atoms and fields: cavity QED -- Quantum optical tests of the foundations of physics -- Quantum information -- PART G: APPLICATIONS: Applications of atomic and molecular physics to astrophysics -- Comets -- Aeronomy -- Application of atomic and molecular physics to global change -- Atoms in dense plasmas -- Conduction of electricity in gases -- Applications to combustion -- Surface physics -- Interface with nuclear physics -- Charged-particle-matter interactions --Radiation physics
Notes"A thoroughly revised and updated Atomic, molecular and optical physics handbook"--Preface. -Includes bibliographical references and index
Keyword(s)1. Atomes 2. ATOMS 3. Atoms, Molecules, Clusters and Plasmas 4. EBOOK 5. EBOOK - SPRINGER 6. MOLECULES 7. Mol�ecules 8. Optical Spectroscopy, Ultrafast Optics 9. OPTICS 10. Optique 11. PHYSICS 12. Physique 13. Quantum Optics, Quantum Electronics, Nonlinear Optics 14. QUANTUM PHYSICS
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I00716     On Shelf    

7.     
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TitleQuantum optics : including noise reduction, trapped ions, quantum trajectories, and decoherence
Author(s)Miguel Orszag
Edition2nd ed
PublicationBerlin, Springer, 2008.
Description1 online resource (xx, 414 p.) : ill
Abstract Note"Quantum Optics gives a very broad coverage of basic laser-related phenomena that allow scientist and engineers to carry out research in quantum optics and laser physics." "It covers quantization of the electromagnetic field, quantum theory of coherence, atom-field interaction models, resonance fluorescence, quantum theory of damping, laser theory using both the master equation and the Langevin theory, the correlated emission laser, input-output theory with applications to non-linear optics, quantum trajectories, quantum non-demolition measurements and generation of non-classical vibrational states of ions in a Paul trap. In this second edition, there is an enlarged chapter on decoherence, as well as additional material dealing with elements of quantum computation, entanglement of pure and mixed states as well as a chapter on quantum copying and processors."--Jacket
NotesIncludes bibliographical references and index
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Laser Technology and Physics, Photonics 4. QUANTUM OPTICS 5. Quantum Optics, Quantum Electronics, Nonlinear Optics
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I00519     On Shelf    

8.     
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TitlePatterns of light : chasing the spectrum from Aristotle to LEDs
Author(s)Steven Beeson;James W. Mayer
PublicationNew York, Springer, 2008.
Description1 online resource (xiv, 195 p.) : ill. (some col.)
Abstract NoteBegins by addressing properties of light as seen in the everyday world: events such as refraction in a pool, lenses in the form of glasses, the colors of objects, atmospheric events, and more. This title includes chapters that explain these events at the atomic and subatomic level
Contents NoteThe path of light -- The reflection of light -- Daguerreotypes : light captured -- The refraction of light -- Lenses : from water drops to telescopes -- Sources of light and color -- Diffraction and interference -- Rainbows -- Sea, sky, and cloud -- Polarized light and sunglasses -- Photons, electrons, and the atom -- X-rays, ultraviolet light, and infrared -- X-ray emission : Earth, Moon, and Mars -- Appendix A
NotesIncludes bibliographical references (p. [185]-186) and index
Keyword(s)1. Applied Optics, Optoelectronics, Optical Devices 2. EBOOK 3. EBOOK - SPRINGER 4. Electromagnetism, Optics and Lasers 5. LIGHT 6. Lumi�ere 7. Microwaves, RF and Optical Engineering 8. Optical Spectroscopy, Ultrafast Optics 9. OPTICS 10. Optique 11. Quantum Optics, Quantum Electronics, Nonlinear Optics 12. SCIENCE
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I00518     On Shelf    

9.     
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TitleDissipative solitons
Author(s)N. Akhmediev (ed.);A. Ankiewicz (ed.)
PublicationBerlin, Springer, 2005.
Description1 online resource (xvii, 448 p.) : ill
NotesIncludes bibliographical references and index
Keyword(s)1. Applied Optics, Optoelectronics, Optical Devices 2. Dissipation d'�energie 3. EBOOK 4. EBOOK - SPRINGER 5. Energy dissipation 6. ENGINEERING 7. LASER PHYSICS 8. Laser Technology and Physics, Photonics 9. PHYSICAL OPTICS 10. PHYSICS 11. Physics and Applied Physics in Engineering 12. QUANTUM OPTICS 13. Quantum Optics, Quantum Electronics, Nonlinear Optics 14. SOLITONS
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10.    
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TitleQuantum kinetic theory and applications : electrons, photons, phonons
Author(s)Fedir T. Vasko;Oleg E. Raichev
PublicationNew York, Springer, 2005.
Description1 online resource (xii, 784 p.) : ill
Abstract Note"This lecture-style monograph is addressed to several categories of readers. First, it will be useful for graduate students studying theory. Second, the topics covered should be interesting for postgraduate students of various specializations. Third, the researchers who want to understand the background of modern theoretical issues in more detail can find a number of useful results here. The phenomena covered involve kinetics of electron, phonon, and photon systems in solids."--Jacket
Contents NoteCover -- Contents -- Preface -- 1. ELEMENTS OF QUANTUM DYNAMICS -- 1. Dynamical Equations -- 2. S-Operator and Probability of Transitions -- 3. Photons in Medium -- 4. Many-Electron System -- 5. Electrons under External Fields -- 6. Long-Wavelength Phonons -- Problems -- 2. ELECTRON-IMPURITY SYSTEM -- 7. Kinetic Equation for Weak Scattering -- 8. Relaxation Rates and Conductivity -- 9. Quasi-Classical Kinetic Equation -- 10. Multi-Photon Processes -- 11. Balance Equations -- 12. Conductance of Microcontacts -- Problems -- 3. LINEAR RESPONSE THEORY -- 13. Kubo Formula -- 14. Diagram Technique -- 15. Bethe-Salpeter Equation -- 16. Green's Function as a Path Integral -- 17. Dispersion of Dielectric Permittivity -- 18. Interband Absorption under External Fields -- Problems -- 4. BOSONS INTERACTING WITH ELECTRONS -- 19. Kinetic Equation for Boson Modes -- 20. Spontaneous and Stimulated Radiation -- 21. Phonon Instabilities -- 22. Boson Emission by 2D Electrons -- Problems -- 5. INTERACTING PHONON SYSTEMS -- 23. Phonon-Phonon Collisions -- 24. Thermal Conductivity of Insulators -- 25. Balance Equations for Phonons -- 26. Relaxation of Long-Wavelength Phonons -- 27. Polaritons and Dielectric Function of Ionic Crystals -- Problems -- 6. EFFECTS OF ELECTRON-ELECTRON INTERACTION -- 28. Hartree-Fock Approximation -- 29. Shift of Intersubband Resonance -- 30. Exciton Absorption -- 31. Electron-Electron Collision Integral -- 32. Coulomb Drag Between 2D Electrons -- 33. Dynamical Screening -- Problems -- 7. NON-EQUILIBRIUM ELECTRONS -- 34. Electron-Boson Collision Integral -- 35. Quasi-Isotropic and Streaming Distributions -- 36. Diffusion, Drift, and Energy Balance -- 37. Heating under High-Frequency Field -- 38. Relaxation of Population -- Problems -- 8. NON-EQUILIBRIUM DIAGRAM TECHNIQUE -- 39. Matrix Green's Function -- 40. Generalized Kinetic Equation -- 41. General Formulation of NDT -- 42. NDT Formalism for Electron-Boson System -- 43. Weak Localization under External Fields -- Problems -- 9. KINETICS OF BOUNDED SYSTEMS -- 44. Boundary Conditions at Non-Ideal Surface -- 45. Size-Dependent Conductivity -- 46. Thermal Conductivity of Bounded Insulators -- 47. Electron Relaxation by Near-Surface Phonons -- Problems -- 10. QUANTUM MAGNETOTRANSPORT -- 48. Method of Iterations -- 49. Green's Function Approach -- 50. Quasi-Classical Conductivity -- 51. Quantum Hall Effect -- 52. Magnetooptics -- Problems -- 11. PHOTOEXCITATION -- 53. Photogeneration Rate -- 54. Response to Ultrafast Excitation -- 55. Partially Inverted Electron Distribution -- 56. Photoinduced Interband Hybridization -- 57. Excitation
NotesIncludes bibliographical references (p. vii-viii) and index
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Elementary Particles, Quantum Field Theory 4. Kinetic theory of matter 5. MATERIALS SCIENCE 6. Quantum Optics, Quantum Electronics, Nonlinear Optics 7. QUANTUM PHYSICS 8. SCIENCE 9. Solid State Physics and Spectroscopy
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