From femto-to attoscience and beyond /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Marciak-Kozłowska, Janina
Otros Autores: Kozłowski, Mirosław, 1937-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2009.
Colección:Lasers and electro-optics research and technology series.
Temas:
Laser pulses, Ultrashort.
Rydberg states.
Transport theory > Mathematics.
Impulsions laser ultra-brèves.
États de Rydberg.
Théorie du transport > Mathématiques.
TECHNOLOGY & ENGINEERING > Lasers & Photonics.
Laser pulses, Ultrashort
Rydberg states
Transport theory > Mathematics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • FROM FEMTO-TO ATTOSCIENCEAND BEYOND; CONTENTS; PREFACE; INTRODUCTION; REFERENCES; FUNDAMENTALS OF THE LASER PULSESINTERACTION WITH MATTER; 1.1. CLASSICAL HYPERBOLIC TRANSPORT EQUATION; 1.2. QUANTUM HYPERBOLIC TRANSPORT EQUATION; 1.3. HEAT TRANSPORT IN NANOSCALE; REFERENCES; HEAVISIDE EQUATION FOR HYPERBOLICTRANSPORT PROCESSES; 2.1. BOLTZMANN EQUATION FOR HEAT TRANSPORT INDUCEDBY ULTRA-SHORT LASER PULSES; 2.2. UNIVERSAL RELAXATION TIME FOR ELECTRON AND NUCLEONGASES; 2.3. NONLINEAR KLEIN
  • GORDON EQUATION FOR NANOSCALETRANSPORT; 2.4. SUB- AND SUPERSONIC TRANSPORT PROCESSES.
  • 2.5. TRANSPORT PROCESSES IN N
  • DIMENSIONAL SPACE
  • TIMEREFERENCES; SCHRÖDINGER
  • NEWTON HYPERBOLIC EQUATIONFOR QUANTUM THERMAL PROCESSES; 3.1. NON
  • LOCAL SCHRÖDINGER EQUATION; 3.2. THE TIME EVOLUTION OF THE BOHMIAN PILOT WAVE; 3.3. QUANTUM THERMAL WAVES IN QUANTUM CORRALS; 3.4. KLEIN
  • GORDON THERMAL EQUATION WITH CASIMIRPOTENTIAL FOR ATTOSECOND LASER PULSE INTERACTIONWITH MATTER; 3.5. ATTOPHYSICS OF THERMAL PHENOMENAIN CARBON NANOTUBES; REFERENCES; PROCA EQUATION FOR RELATIVISTICTHERMAL PROCESSES; 4.1. TRANSPORT PHENOMENA IN MINKOWSKI SPACETIME; 4.2. ON THE POSSIBLE THERMAL TACHYONS.
  • 4.3. ON THE POSSIBLE VOID DECAY IN FREE
  • ELECTRON LASERSASE
  • FEL EXPERIMENT4.4. FOURIER DIFFUSION AND SPECIAL RELATIVITY INNANOTECHNOLOGY; 4.5. PROCA EQUATION FOR ATTOSECOND ELECTRON PULSES; REFERENCES; EXTREME LIGHT, LASETRONAND TESLA SASE
  • FEL; 5.1. SPACE
  • TIME ENGINEERING WITH LASETRON PULSES; 5.2. FUNDAMENTAL PHYSICS AT AN X-RAY FREE ELECTRON LASER; 5.3. S
  • MESONS AS THE QUANTA OF NON-NEWTONIAN HADRONICFLUID; 5.4. SECOND SOUND IN NUCLEAR INTERACTIONS; 5.5. PRODUCTION AND DETECTION OF AXION-LIKE PARTICLESAT VUV-FEL; REFERENCES; BEYOND ORTHODOX QUANTUM THEORY; REFERENCES.
  • PROCA EQUATION FOR HEAVY PHOTONSAND GRAVITONS7.1. INTRODUCTION; 7.2. PROCA EQUATIONS AND THE PHOTON MASS; 7.3. PROCA EQUATIONS AND GRAVIPHOTON MASS; 7.4. CONSEQUENCES OF LOCAL GRAVITON MASS; 7.5. APPLICATION TO COHERENT QUANTUM MATTER; REFERENCES; APPENDIX A. LASER INDUCED TRANSPORTPHENOMENA IN GRAPHENE; 1. THE MODEL EQUATIONS; 2. BALLISTIC HEAT TRANSPORT IN GRAPHENE; APPENDIX B. GENERALIZED MAXWELL-PROCAEQUATIONS FOR HEAVY PHOTONS; APPENDIX C. GENEALOGY OF THE KLEIN
  • GORDONEQUATION; APPENDIX D. HIPER- HIGH POWER LASER ENERGYRESEARCH FACILITY; EQUATIONS INDEX; INDEX.

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