Thermal processes using attosecond laser pulses: when time matters
This book contains a study of the thermal processes initiated by attosecond laser pulses. Considering the existence of the experimental evidence for the trains of the attosecond laser pulses, we developed the theoretical framework for attophysics, i.e. physics of phenomena with time duration in the...
Gespeichert in:
| Hauptverfasser: | , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York
Springer
2006
|
| Schriftenreihe: | Springer series in optical sciences
121 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | This book contains a study of the thermal processes initiated by attosecond laser pulses. Considering the existence of the experimental evidence for the trains of the attosecond laser pulses, we developed the theoretical framework for attophysics, i.e. physics of phenomena with time duration in the attosecond domain. This time domain is concerned with phenomena which duration is much shorter than the relaxation time for atomic, molecular and nanoparticles scales. |
| Beschreibung: | e-ISBN 0-387-30234-4 |
| Beschreibung: | XII, 217 S. Ill., graph. Darst. |
| ISBN: | 0387301593 9780387301594 |
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| 500 | |a e-ISBN 0-387-30234-4 | ||
| 520 | 3 | |a This book contains a study of the thermal processes initiated by attosecond laser pulses. Considering the existence of the experimental evidence for the trains of the attosecond laser pulses, we developed the theoretical framework for attophysics, i.e. physics of phenomena with time duration in the attosecond domain. This time domain is concerned with phenomena which duration is much shorter than the relaxation time for atomic, molecular and nanoparticles scales. | |
| 650 | 4 | |a Mathematisches Modell | |
| 650 | 4 | |a Energy transfer | |
| 650 | 4 | |a Heat | |
| 650 | 4 | |a Laser pulses, Ultrashort | |
| 650 | 4 | |a Lasers |x Thermal properties | |
| 650 | 4 | |a Thermodynamics |x Mathematical models | |
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Datensatz im Suchindex
| _version_ | 1804135489754628096 |
|---|---|
| adam_text | MIROSTAW KOZLOWSKI JANINA MARCIAK-KOZLOWSKA THERMAL PROCESSES USING
ATTOSECOND LASER PULSES WHEN TIME MATTERS WITH 45 ILLUSTRATIONS 4Y
SPRINGER CONTENTS INTRODUCTION 1 1 WAVE PHENOMENA: AN OVERVIEW 5 1.1
HYPERBOLIC PARTIAL DIFFERENTIAL EQUATIONS AND WAVE PHENOMENA 5 1.1.1
EQUATIONS OF WAVE PHENOMENA 5 1.1.2 HYPERBOLIC PARTIAL DIFFERENTIAL
OPERATORS 8 1.1.3 FORMULAE FOR SOLUTIONS OF AN INITIAL VALUE PROBLEM FOR
A WAVE EQUATION 9 1.2 THE DISCRETE BOLTZMANN EQUATION FOR THE HEAT
TRANSPORT INDUCED BY ULTRASHORT LASER PULSES 12 1.2.1 THE MODEL EQUATION
12 1.2.2 THE SOLUTION OF THE BOLTZMANN EQUATION FOR THE STATIONARY
TRANSPORT PHENOMENA IN ONE-DIMENSIONAL WIRE . 17 1.3 THE EXISTENCE OF A
SOLUTION FOR A HYPERBOLIC EQUATION AND ITS PROPERTIES 24 1.3.1 FINITE
PROPAGATION SPEED, DOMAINS OF DEPENDENCE AND INFLUENCE 24 1.3.2 AN A
PRIORI ESTIMATE OF THE SOLUTION 25 1.3.3 THE WAVE SOLUTION OF THE HEAT
CONDUCTION EQUATION .. 27 REFERENCES 31 2 CAUSAL THERMAL PHENOMENA,
CLASSICAL DESCRIPTION 33 2.1 FUNDAMENTALS OF THE RAPID THERMAL PROCESSES
33 2.1.1 THE MEMORY FUNCTION FOR THERMAL PROCESSES 33 X CONTENTS 2.1.2
THE RELAXATION DYNAMICS OF THE ULTRAFAST THERMAL PULSES 39 2.1.3 THE
THERMAL INERTIA OF MATERIALS HEATED WITH ULTRAFAST LASER PULSES 40 2.1.4
CAUSAL TRANSPORT OF HOT ELECTRONS 44 2.2 THE THERMAL WAVE AS THE
SOLUTION OF HHT 47 2.2.1 VELOCITY OF THERMAL WAVES 47 2.2.2 THE THERMAL
WAVE AS THE SOLUTION OF HHT 48 2.2.3 SLOWING AND DEPHASING OF THE
THERMAL WAVES 51 2.2.4 PHYSICS AT THE ATTOSECOND FRONTIER 55 REFERENCES
56 3 CAUSAL THERMAL PHENOMENA, QUANTAL DESCRIPTION 59 3.1 DISCRETIZATION
OF THE THERMAL EXCITATION IN HIGH EXCITED MATTER 59 3.1.1 QUANTUM HEAT
TRANSPORT EQUATION (QHT) 59 3.1.2 BROWNIAN REPRESENTATION OF QUANTUM
HEAT TRANSPORT IN ATTOSECOND DOMAIN 66 3.1.3 THE FUNDAMENTAL SOLUTION OF
THE QUANTUM HEAT TRANSPORT EQUATION 70 3.2 KLEIN-GORDON THERMAL EQUATION
74 3.2.1 THE DISTORTIONLESS QUANTUM THERMAL WAVES 74 3.2.2 METASTABLE
THERMAL QUANTUM STATES 79 3.2.3 QUANTUM HEAT TRANSPORT ON THE MOLECULAR
SCALE 86 REFERENCES 91 4 APPLICATION OF THE QUANTUM HEAT TRANSPORT
EQUATION 93 4.1 THE PAULI-HEISENBERG MODEL 93 4.1.1 ELECTRON THERMAL
RELAXATION IN METALLIC NANOPARTICLES . 93 4.1.2 VELOCITY SPECTRA OF THE
RELATIVISTIC ELECTRONS 97 4.2 BALLISTIC AND DIFFUSION HEAT TRANSPORT 103
4.2.1 BALLISTIC AND DIFFUSION THERMAL PULSE PROPAGATION IN THE
ATTOSECOND TIME DOMAIN 103 4.2.2 THE POLARIZATION OF THE ELECTRONS
EMITTED AFTER ULTRASHORT LASER PULSE INTERACTION WITH SPIN ACTIVE SOLIDS
ILL 4.2.3 LASER LIGHT-INDUCED 7R-MESONS EMISSION 114 CONTENTS XI
REFERENCES 120 5 CAUSAL THERMAL PHENOMENA IN A PLANCK ERA 121 5.1 THE
TIME ARROW IN A PLANCK GAS 121 5.1.1 QUANTUM HEAT TRANSPORT IN A PLANCK
ERA 121 5.1.2 THE SMEARING OUT OF THE THERMAL INITIAL CONDITIONS CREATED
IN A PLANCK ERA 124 5.2 KLEIN-GORDON THERMAL EQUATION FOR A PLANCK GAS
127 5.2.1 PLANCK WALL POTENTIAL 127 5.2.2 RADIUS, VELOCITY, AND
ACCELERATION OF THE SPACETIME.... 130 5.2.3 STABILITY OF MATTER IN THE
ACCELERATING SPACETIME 137 5.2.4 THE PLANCK, YUKAWA, AND BOHR PARTICLES
139 5.2.5 POSSIBLE INTERPRETATION OF FPI ANC K, ^VUKAWAJ AND -FBOHR * *
140 REFERENCES 142 6 ATTOPHYSICS AND TECHNOLOGY WITH ULTRASHORT LASER
PULSES . 143 6.1 QUANTUM HEAT TRANSPORT: FROM BASICS TO APPLICATIONS 143
6.1.1 RANGES OF INTERACTIONS AND HEATON ENERGIES FOR QUARK, ELECTRON,
AND NUCLEON GASES 143 6.1.2 HIERARCHICAL STRUCTURE OF THE THERMAL
EXCITATION 146 6.2 LOOKING INTO THE NANOWORLD 150 6.2.1 RELATIVISTIC
HYPERBOLIC HEAT TRANSFER EQUATION 150 6.2.2 LASER MELTING OF
NANOPARTICLES WITH NEGATIVE HEAT CAPACITY 156 REFERENCES * 163 7 FASTER,
BRIGHTER, SHORTER 165 7.1 HYPERBOLIC HEAT TRANSPORT INDUCED BY
ZEPTOSECOND LASER PULSES 165 7.1.1 THE LASETRON PROJECT 165 7.1.2 HEAT
TRANSPORT IN ZEPTOSECOND (10~ 21 S) TIME SCALE ... 166 7.1.3 NUCLEAR
PHYSICS WITH LASERS 171 7.1.4 ENERGY SPECTIA OF THE RELATIVISTIC
ELECTRONS 173 7.2 POSSIBLE THERMAL WAVES GENERATION BY FEMTOSECOND TESLA
FREE ELECTRON LASER (FEL) 182 7.2.1 THE FEL TESLA PROJECT 182 7.2.2
SOLUTION OF THE HEAVISIDE EQUATION 183 XII CONTENTS 7.2.3 THE QUANTAL
TEMPERATURE FIELD T(X, T) 185 7.3 NEW LASER FACILITY LUX (LINIAC-BASED
ULTRAFAST X-RAY LASER FACILITY) 187 7.3.1 THE LUX PROJECT = 187 7.3.2
STUDY OF THE ULTRAFAST DYNAMICS ACROSS A WIDE RANGE OF SCIENCE 188
REFERENCES 190 8 FUNDAMENTAL PHYSICS WITH ATTOSECOND LASER PULSES 191
8.1 PRECISION MEASUREMENTS OF THE FUNDAMENTAL CONSTANTS OF NATURE 191
8.1.1 RYDBERG CONSTANT AND LAMB SHIFT IN THE HYDROGEN ATOM 191 8.1.2
ZERO-POINT FIELD (ZPF) EFFECTS ON THE STABILITY OF MATTER 193 8.2 THE
LIFE OF THE UNIVERSE 196 8.2.1 AGING OF THE UNIVERSE AND THE FINE
STRUCTURE CONSTANT 196 8.2.2 THE ECOSPHERE AND THE VALUE OF THE
ELECTROMAGNETIC FINE STRUCTURE CONSTANT 199 8.2.3 INCONSTANCY OF THE
FINE STRUCTURE CONSTANT, A? 202 REFERENCES 203 9 EPILOGUE: THE EMERGENCE
OF QUANTUM DYNAMICS IN A CLASSICAL WORLD 205 9.1 KEY QUESTIONS 205 9.2
SCHRODINGER-NEWTON WAVE MECHANICS: THE MODEL 206 9.2.1 GENERALIZED
FOURIER LAW 207 9.2.2 DAMPED WAVE EQUATION, THERMAL CARRIERS IN
POTENTIAL WELL, V 208 9.2.3 MODEL SCHRODINGER EQUATION 209 9.2.4
SCHRODINGER EQUATION AND THE STRINGS 211 REFERENCES 212 A APPENDIX A 213
INDEX 215
|
| adam_txt |
MIROSTAW KOZLOWSKI JANINA MARCIAK-KOZLOWSKA THERMAL PROCESSES USING
ATTOSECOND LASER PULSES WHEN TIME MATTERS WITH 45 ILLUSTRATIONS 4Y
SPRINGER CONTENTS INTRODUCTION 1 1 WAVE PHENOMENA: AN OVERVIEW 5 1.1
HYPERBOLIC PARTIAL DIFFERENTIAL EQUATIONS AND WAVE PHENOMENA 5 1.1.1
EQUATIONS OF WAVE PHENOMENA 5 1.1.2 HYPERBOLIC PARTIAL DIFFERENTIAL
OPERATORS 8 1.1.3 FORMULAE FOR SOLUTIONS OF AN INITIAL VALUE PROBLEM FOR
A WAVE EQUATION 9 1.2 THE DISCRETE BOLTZMANN EQUATION FOR THE HEAT
TRANSPORT INDUCED BY ULTRASHORT LASER PULSES 12 1.2.1 THE MODEL EQUATION
12 1.2.2 THE SOLUTION OF THE BOLTZMANN EQUATION FOR THE STATIONARY
TRANSPORT PHENOMENA IN ONE-DIMENSIONAL WIRE '. 17 1.3 THE EXISTENCE OF A
SOLUTION FOR A HYPERBOLIC EQUATION AND ITS PROPERTIES 24 1.3.1 FINITE
PROPAGATION SPEED, DOMAINS OF DEPENDENCE AND INFLUENCE 24 1.3.2 AN A
PRIORI ESTIMATE OF THE SOLUTION 25 1.3.3 THE WAVE SOLUTION OF THE HEAT
CONDUCTION EQUATION . 27 REFERENCES 31 2 CAUSAL THERMAL PHENOMENA,
CLASSICAL DESCRIPTION 33 2.1 FUNDAMENTALS OF THE RAPID THERMAL PROCESSES
33 2.1.1 THE MEMORY FUNCTION FOR THERMAL PROCESSES 33 X CONTENTS 2.1.2
THE RELAXATION DYNAMICS OF THE ULTRAFAST THERMAL PULSES 39 2.1.3 THE
THERMAL INERTIA OF MATERIALS HEATED WITH ULTRAFAST LASER PULSES 40 2.1.4
CAUSAL TRANSPORT OF HOT ELECTRONS 44 2.2 THE THERMAL WAVE AS THE
SOLUTION OF HHT 47 2.2.1 VELOCITY OF THERMAL WAVES 47 2.2.2 THE THERMAL
WAVE AS THE SOLUTION OF HHT 48 2.2.3 SLOWING AND DEPHASING OF THE
THERMAL WAVES 51 2.2.4 PHYSICS AT THE ATTOSECOND FRONTIER 55 REFERENCES
56 3 CAUSAL THERMAL PHENOMENA, QUANTAL DESCRIPTION 59 3.1 DISCRETIZATION
OF THE THERMAL EXCITATION IN HIGH EXCITED MATTER 59 3.1.1 QUANTUM HEAT
TRANSPORT EQUATION (QHT) 59 3.1.2 BROWNIAN REPRESENTATION OF QUANTUM
HEAT TRANSPORT IN ATTOSECOND DOMAIN 66 3.1.3 THE FUNDAMENTAL SOLUTION OF
THE QUANTUM HEAT TRANSPORT EQUATION 70 3.2 KLEIN-GORDON THERMAL EQUATION
74 3.2.1 THE DISTORTIONLESS QUANTUM THERMAL WAVES 74 3.2.2 METASTABLE
THERMAL QUANTUM STATES 79 3.2.3 QUANTUM HEAT TRANSPORT ON THE MOLECULAR
SCALE 86 REFERENCES 91 4 APPLICATION OF THE QUANTUM HEAT TRANSPORT
EQUATION 93 4.1 THE PAULI-HEISENBERG MODEL 93 4.1.1 ELECTRON THERMAL
RELAXATION IN METALLIC NANOPARTICLES . 93 4.1.2 VELOCITY SPECTRA OF THE
RELATIVISTIC ELECTRONS 97 4.2 BALLISTIC AND DIFFUSION HEAT TRANSPORT 103
4.2.1 BALLISTIC AND DIFFUSION THERMAL PULSE PROPAGATION IN THE
ATTOSECOND TIME DOMAIN 103 4.2.2 THE POLARIZATION OF THE ELECTRONS
EMITTED AFTER ULTRASHORT LASER PULSE INTERACTION WITH SPIN ACTIVE SOLIDS
ILL 4.2.3 LASER LIGHT-INDUCED 7R-MESONS EMISSION 114 CONTENTS XI
REFERENCES 120 5 CAUSAL THERMAL PHENOMENA IN A PLANCK ERA 121 5.1 THE
TIME ARROW IN A PLANCK GAS 121 5.1.1 QUANTUM HEAT TRANSPORT IN A PLANCK
ERA 121 5.1.2 THE SMEARING OUT OF THE THERMAL INITIAL CONDITIONS CREATED
IN A PLANCK ERA 124 5.2 KLEIN-GORDON THERMAL EQUATION FOR A PLANCK GAS
127 5.2.1 PLANCK WALL POTENTIAL 127 5.2.2 RADIUS, VELOCITY, AND
ACCELERATION OF THE SPACETIME. 130 5.2.3 STABILITY OF MATTER IN THE
ACCELERATING SPACETIME 137 5.2.4 THE PLANCK, YUKAWA, AND BOHR PARTICLES
139 5.2.5 POSSIBLE INTERPRETATION OF FPI ANC K, ^VUKAWAJ AND -FBOHR * *
140 REFERENCES 142 6 ATTOPHYSICS AND TECHNOLOGY WITH ULTRASHORT LASER
PULSES . 143 6.1 QUANTUM HEAT TRANSPORT: FROM BASICS TO APPLICATIONS 143
6.1.1 RANGES OF INTERACTIONS AND HEATON ENERGIES FOR QUARK, ELECTRON,
AND NUCLEON GASES 143 6.1.2 HIERARCHICAL STRUCTURE OF THE THERMAL
EXCITATION 146 6.2 LOOKING INTO THE NANOWORLD 150 6.2.1 RELATIVISTIC
HYPERBOLIC HEAT TRANSFER EQUATION 150 6.2.2 LASER MELTING OF
NANOPARTICLES WITH NEGATIVE HEAT CAPACITY 156 REFERENCES * 163 7 FASTER,
BRIGHTER, SHORTER 165 7.1 HYPERBOLIC HEAT TRANSPORT INDUCED BY
ZEPTOSECOND LASER PULSES 165 7.1.1 THE LASETRON PROJECT 165 7.1.2 HEAT
TRANSPORT IN ZEPTOSECOND (10~ 21 S) TIME SCALE . 166 7.1.3 NUCLEAR
PHYSICS WITH LASERS 171 7.1.4 ENERGY SPECTIA OF THE RELATIVISTIC
ELECTRONS 173 7.2 POSSIBLE THERMAL WAVES GENERATION BY FEMTOSECOND TESLA
FREE ELECTRON LASER (FEL) 182 7.2.1 THE FEL TESLA PROJECT 182 7.2.2
SOLUTION OF THE HEAVISIDE EQUATION 183 XII CONTENTS 7.2.3 THE QUANTAL
TEMPERATURE FIELD T(X, T) 185 7.3 NEW LASER FACILITY LUX (LINIAC-BASED
ULTRAFAST X-RAY LASER FACILITY) 187 7.3.1 THE LUX PROJECT = 187 7.3.2
STUDY OF THE ULTRAFAST DYNAMICS ACROSS A WIDE RANGE OF SCIENCE 188
REFERENCES 190 8 FUNDAMENTAL PHYSICS WITH ATTOSECOND LASER PULSES 191
8.1 PRECISION MEASUREMENTS OF THE FUNDAMENTAL CONSTANTS OF NATURE 191
8.1.1 RYDBERG CONSTANT AND LAMB SHIFT IN THE HYDROGEN ATOM 191 8.1.2
ZERO-POINT FIELD (ZPF) EFFECTS ON THE STABILITY OF MATTER 193 8.2 THE
LIFE OF THE UNIVERSE 196 8.2.1 AGING OF THE UNIVERSE AND THE FINE
STRUCTURE CONSTANT 196 8.2.2 THE ECOSPHERE AND THE VALUE OF THE
ELECTROMAGNETIC FINE STRUCTURE CONSTANT 199 8.2.3 INCONSTANCY OF THE
FINE STRUCTURE CONSTANT, A? 202 REFERENCES 203 9 EPILOGUE: THE EMERGENCE
OF QUANTUM DYNAMICS IN A CLASSICAL WORLD 205 9.1 KEY QUESTIONS 205 9.2
SCHRODINGER-NEWTON WAVE MECHANICS: THE MODEL 206 9.2.1 GENERALIZED
FOURIER LAW 207 9.2.2 DAMPED WAVE EQUATION, THERMAL CARRIERS IN
POTENTIAL WELL, V 208 9.2.3 MODEL SCHRODINGER EQUATION 209 9.2.4
SCHRODINGER EQUATION AND THE STRINGS 211 REFERENCES 212 A APPENDIX A 213
INDEX 215 |
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| author | Kozłowski, Mirosław Marciak-Kozłowska, Janina 1936- |
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| callnumber-subject | QC - Physics |
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| ctrlnum | (OCoLC)64554842 (DE-599)BVBBV021672781 |
| dewey-full | 536.7 621.36/6 |
| dewey-hundreds | 500 - Natural sciences and mathematics 600 - Technology (Applied sciences) |
| dewey-ones | 536 - Heat 621 - Applied physics |
| dewey-raw | 536.7 621.36/6 |
| dewey-search | 536.7 621.36/6 |
| dewey-sort | 3536.7 |
| dewey-tens | 530 - Physics 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
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| id | DE-604.BV021672781 |
| illustrated | Illustrated |
| index_date | 2024-07-02T15:09:15Z |
| indexdate | 2024-07-09T20:41:19Z |
| institution | BVB |
| isbn | 0387301593 9780387301594 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014887118 |
| oclc_num | 64554842 |
| open_access_boolean | |
| owner | DE-19 DE-BY-UBM DE-83 DE-11 |
| owner_facet | DE-19 DE-BY-UBM DE-83 DE-11 |
| physical | XII, 217 S. Ill., graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Springer |
| record_format | marc |
| series | Springer series in optical sciences |
| series2 | Springer series in optical sciences |
| spelling | Kozłowski, Mirosław Verfasser aut Thermal processes using attosecond laser pulses when time matters Mirosław Kozłowski ; Janina Marciak-Kozłowska New York Springer 2006 XII, 217 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in optical sciences 121 e-ISBN 0-387-30234-4 This book contains a study of the thermal processes initiated by attosecond laser pulses. Considering the existence of the experimental evidence for the trains of the attosecond laser pulses, we developed the theoretical framework for attophysics, i.e. physics of phenomena with time duration in the attosecond domain. This time domain is concerned with phenomena which duration is much shorter than the relaxation time for atomic, molecular and nanoparticles scales. Mathematisches Modell Energy transfer Heat Laser pulses, Ultrashort Lasers Thermal properties Thermodynamics Mathematical models Marciak-Kozłowska, Janina 1936- Verfasser (DE-588)1048575659 aut Springer series in optical sciences 121 (DE-604)BV000000237 121 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014887118&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kozłowski, Mirosław Marciak-Kozłowska, Janina 1936- Thermal processes using attosecond laser pulses when time matters Springer series in optical sciences Mathematisches Modell Energy transfer Heat Laser pulses, Ultrashort Lasers Thermal properties Thermodynamics Mathematical models |
| title | Thermal processes using attosecond laser pulses when time matters |
| title_auth | Thermal processes using attosecond laser pulses when time matters |
| title_exact_search | Thermal processes using attosecond laser pulses when time matters |
| title_exact_search_txtP | Thermal processes using attosecond laser pulses when time matters |
| title_full | Thermal processes using attosecond laser pulses when time matters Mirosław Kozłowski ; Janina Marciak-Kozłowska |
| title_fullStr | Thermal processes using attosecond laser pulses when time matters Mirosław Kozłowski ; Janina Marciak-Kozłowska |
| title_full_unstemmed | Thermal processes using attosecond laser pulses when time matters Mirosław Kozłowski ; Janina Marciak-Kozłowska |
| title_short | Thermal processes using attosecond laser pulses |
| title_sort | thermal processes using attosecond laser pulses when time matters |
| title_sub | when time matters |
| topic | Mathematisches Modell Energy transfer Heat Laser pulses, Ultrashort Lasers Thermal properties Thermodynamics Mathematical models |
| topic_facet | Mathematisches Modell Energy transfer Heat Laser pulses, Ultrashort Lasers Thermal properties Thermodynamics Mathematical models |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014887118&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000000237 |
| work_keys_str_mv | AT kozłowskimirosław thermalprocessesusingattosecondlaserpulseswhentimematters AT marciakkozłowskajanina thermalprocessesusingattosecondlaserpulseswhentimematters |