From femto- to attoscience and beyond / Janina Marciak-Kozlowska and Miroslaw Kozlowski.

Format:

Book

Author/Creator:

Marciak-Kozłowska, Janina.

Contributor:

Kozłowski, Mirosław, 1937-

Series:

Lasers and electro-optics research and technology series.

Lasers and electro-optics research and technology series

Language:

English

Subjects (All):

Laser pulses, Ultrashort.

Rydberg states.

Transport theory--Mathematics.

Transport theory.

Physical Description:

1 online resource (202 p.)

Edition:

1st ed.

Place of Publication:

New York : Nova Science Publishers, Inc., c2009.

Language Note:

English

Summary:

Developments in optical pulse engineering over the last 20 years lead to the generation of laser pulses as short as few femtosecond, providing a unique tool for high resolution time domain spectroscopy. In this book the interaction of the attosecond laser pulses with matter is investigated.

Contents:

Intro

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

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 - TIME

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

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 EXPERIMENT

4.4. FOURIER DIFFUSION AND SPECIAL RELATIVITY INNANOTECHNOLOGY

4.5. PROCA EQUATION FOR ATTOSECOND ELECTRON PULSES

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. Π - 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

BEYOND ORTHODOX QUANTUM THEORY

REFERENCES.

PROCA EQUATION FOR HEAVY PHOTONSAND GRAVITONS

7.1. 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

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.

Notes:

Description based upon print version of record.

Includes bibliographical references and indexes.

Description based on print version record.

ISBN:

1-61728-670-2

OCLC:

665799540