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From infinity to infinity and beyond : the field evolution equations /
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Publishers,
[2014]
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| Colección: | Physics research and technology.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- FROM INFINITY TO INFINITY AND BEYOND: THE FIELD EVOLUTION EQUATIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; PART I. ELECTROMAGNETIC FIELD ; Chapter 1: INRODUCTION; IZEST AND THE NONLUMINOSITY PARADIGM; HIGH-AVERAGE POWER LASERS: IZEST INTRODUCTION TO A NOVEL LASER ARCHITECTURE (ICAN EU PROJECT); IZEST EXPLORING THE POSSIBILITY TO PRODUCE ZETTAWATT; Chapter 2:FUNDAMENTALS OF ELECTROMAGNETIC PULSES INTERACTION WITH MATTER; REFERENCE; Chapter 3: QUANTUM EQUATION FOR FIELD PROPAGATION; SPECIAL RELATIVITY WITH NONZERO PHOTON MASS.
- SOLUTION OF THE PROCA THERMAL EQUATIONChapter 4: FIELD PULSE TRANSPORT IN NANOSCALE; REFERENCE; Chapter 5: THE ONE-DIMENSIONAL BOLTZMANN TYPE EQUATION FOR FIELD PULSE PROPAGATION; THE MODEL; THE SOLUTION OF THE BOLTZMANN EQUATION FOR THE STATIONARY TRANSPORT PHENOMENA IN ONE DIMENSIONAL STRAND; REFERENCE; Chapter 6: THE TWO MODE KLEIN-GORDON EQUATION FOR FIELD PULSE PROPAGATION; THE MODEL; REFERENCES; Chapter 7: NON-LINEAR KLEIN-GORDON EQUATION FOR NANOSCALE FIELD PULSE PROPAGATION; REFERENCE; Chapter 8: SUB- AND SUPERSONIC FIELD PULSE MOTION; THE MODEL; REFERENCE.
- Chapter 9: THE FIELD WAVES IN N-DIMENSIONAL SPACETHE MASTER EQUATION FOR THE THERMAL WAVES IN N-DIMENSIONS; SUGGESTIONS FOR EXPERIMENTALISTS; REFERENCE; Chapter 10: ULTRA-SHORT FIELD PULSE PROPAGATION IN CARBON NANOTUBES; DERIVATION OF THE 1+1 DIMENSIONAL DIRAC EQUATION FOR THERMAL PROCESSES IN MICROTUBULES; THE SOLUTION OF THE DIRAC EQUATION FOR STATIONARY TEMPERATURES IN MICROTUBULES; REFERENCE; Chapter 11: SCHRODINGER-NEWTON WAVE MECHANICS; GENERALIZED FOURIER LAW; DAMPED WAVE EQUATION, THERMAL CARRIERS IN POTENTIAL WELL, V.; MODEL SCHRÖDINGER EQUATION; SCHRÖDINGER EQUATION AND THE STRINGS.
- THE MODEL EQUATIONREFERENCES; Chapter 12: FIELD PULSES IN QUANTUM CORRALS; THE MODEL; REFERENCES; Chapter 13: KLEIN-GORDON EQUATION WITH CASIMIR POTENTIAL; REPULSIVE QUANTUM VACUUM FORCES ; KLEIN
- GORDON EQUATION WITH CASIMIR FORCE; REFERENCES; Chapter 14: RELATIVISTIC DESCRIPTION OF THE FIELD MATTER INTERACTION; REFERENCES; Chapter 15: ON THE POSSIBLE FIELD GENERATED TACHYONS; THE LORENTZ TRANSFORMATION FOR
- C2UNIVERSE; REFERENCES; Chapter 16: ON THE POSSIBLE VOID DECAY; THE MODEL DESCRIPTION; REFERENCE; Chapter 17: RELATIVISTIC FIELD DESCRIPTION OF THE NANOTECHNOLOGY PHENOMENA.
- THERMAL DIFFUSION IN OCTLFOURIER DIFFUSION EQUATION AND SPECIAL RELATIVITY THEORY; HYPERBOLIC DIFFUSION AND SPECIAL RELATIVITY THEORY; REFERENCES; Chapter 18: TIME DELAY IN FIELD INDUCED PHOTOEMISSION; LOCAL AND NONLOCAL DESCRIPTION OF THE ATTOSECOND PHOTOEMISSION; REFERENCES; PART II. STRONG FIELD ; Chapter 19: NUCLEAR COLLECTIVE PROCESSES; REFERENCE; Chapter 20: DOES FREE QUARKS EXIST?; QGP AS NON-NEWTONIAN FLUID; REFERENCE; PART III. FIELD EQUATION FOR LIFE SCIENCE ; Chapter 21: FIELD INDUCED PROCESSES IN IN VITRO CANCER TUMOR ; MEMORY OF THE CANCER CELLS.