X-rays from laser plasmas: generation and applications
Gespeichert in:
Hauptverfasser: | , |
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Chichester [u.a.]
Wiley
1999
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Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XIII, 312 S. Ill., graph. Darst. |
ISBN: | 0471983977 |
Internformat
MARC
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100 | 1 | |a Turcu, I. C. E. |e Verfasser |4 aut | |
245 | 1 | 0 | |a X-rays from laser plasmas |b generation and applications |c I. C. E. Turcu and J. B. Dance |
264 | 1 | |a Chichester [u.a.] |b Wiley |c 1999 | |
300 | |a XIII, 312 S. |b Ill., graph. Darst. | ||
336 | |b txt |2 rdacontent | ||
337 | |b n |2 rdamedia | ||
338 | |b nc |2 rdacarrier | ||
650 | 4 | |a Faisceaux laser | |
650 | 7 | |a Interactions laser-plasma |2 ram | |
650 | 4 | |a Lasers à excimère | |
650 | 7 | |a Lasers à excimère |2 ram | |
650 | 4 | |a Plasmas produits par laser | |
650 | 4 | |a Rayons X | |
650 | 7 | |a Rayons X |2 ram | |
650 | 4 | |a Rayons limite | |
650 | 4 | |a Excimer lasers | |
650 | 4 | |a Grenz rays | |
650 | 4 | |a Laser beams | |
650 | 4 | |a Laser plasmas | |
650 | 4 | |a X-rays | |
650 | 0 | 7 | |a Röntgenstrahlung |0 (DE-588)4129728-3 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Lasererzeugtes Plasma |0 (DE-588)4139081-7 |2 gnd |9 rswk-swf |
689 | 0 | 0 | |a Lasererzeugtes Plasma |0 (DE-588)4139081-7 |D s |
689 | 0 | 1 | |a Röntgenstrahlung |0 (DE-588)4129728-3 |D s |
689 | 0 | |5 DE-604 | |
700 | 1 | |a Dance, John B. |e Verfasser |4 aut | |
856 | 4 | 2 | |m GBV Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008571821&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
999 | |a oai:aleph.bib-bvb.de:BVB01-008571821 |
Datensatz im Suchindex
_version_ | 1804127273602777088 |
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adam_text | X-RAYS FROM LASER PLASMAS GENERATION AND APPLICATIONS I. C. E. TURCU
CLRC RUTHERFORD APPLETON LABORATORY, UK AND J. B. DANCE JOHN WILEY &
SONS CHICHESTER * NEW YORK * WEINHEIM * BRISBANE * SINGAPORE * TORONTO
CONTENTS FOREWORD XV PREFACE XVII ACKNOWLEDGEMENTS XIX 1 INTRODUCTION 1
PART I PHYSICAL PRINCIPLES 2 INTERACTION OF SOFT X-RAYS WITH MATTER:
WAVE BEHAVIOUR (A ~ 1 NM) 7 2.1 PROXIMITY X-RAY LITHOGRAPHY FOR THE
SEMICONDUCTOR INDUSTRY 7 2.1.1 RESOLUTION LIMITS 8 2.1.2 ROAD MAP FOR
THE SEMICONDUCTOR INDUSTRY IN THE TWENTY-FIRST CENTURY 10 2.1.3
COMPARISON BETWEEN OPTICAL AND X-RAY LITHOGRAPHY 12 2.1.4 EXPOSURE
GEOMETRY FOR PROXIMITY X-RAY LITHOGRAPHY 15 2.1.5 RADIATION SOURCES FOR
1 NM X-RAY LITHOGRAPHY 18 2.1.5.1 COMPARISON OF POINT X-RAY SOURCES 19
2.1.5.2 SPECIFICATION OF THE LASER PLASMA X-RAY SOURCE FOR LITHOGRAPHY
21 2.1.6 RESOLUTION AND THROUGHPUT OF X-RAY LITHOGRAPHY USING POINT
SOURCES 22 2.1.7 DEEP X-RAY LITHOGRAPHY FOR MICROMACHINING 25 2.1.7.1
THE LIGA METHOD 26 2.1.7.2 FAST-EXPOSURE LIGA FOR 1 NM X-RAYS 28 2.2
CONTACT X-RAY MICROSCOPY 30 2.2.1 EXPOSURE CELL FOR WATER WINDOW
X-RAYS 31 2.2.2 COMPARISON BETWEEN ELECTRON, OPTICAL AND X-RAY
MICROSCOPES 32 2.2.3 RESOLUTION LIMIT 33 2.2.4 FUTURE IMPROVEMENTS 34
2.3 COHERENT, POINT-LIKE PLASMA X-RAY SOURCES 35 2.3.1 COHERENCE
CONDITION 35 2.3.2 COHERENCE MEASUREMENTS: YOUNG S DOUBLE-SLIT
EXPERIMENT 38 2.3.3 TEMPORAL COHERENCE 41 2.3.4 COHERENT SOURCE FOR
0.834 NM X-RAYS 42 2.4 X-RAY HOLOGRAPHY 43 VIII CONTENTS 2.4.1 GABOR
IN-LINE GEOMETRY 44 2.4.2 FOURIER TRANSFORM GEOMETRY 45 2.4.3 GABOR
HOLOGRAM RECORDED WITH 0.834 RAN X-RAYS 46 2.4.3.1 HOLOGRAM RECORDING 46
2.4.3.2 HOLOGRAM RECONSTRUCTION 48 2.5 ZONE PLATE X-RAY LENS 50 2.5.1
FOCAL LENGTH OF ZONE PLATE OPTICS 50 2.5.2 RESOLUTION AND EFFICIENCY OF
ZONE PLATE OPTICS 52 2.5.3 IMAGING TRANSMISSION X-RAY MICROSCOPE 53
2.5.4 SCANNING TRANSMISSION X-RAY MICROSCOPE (STXM) 55 2.5.4.1 STXM
CONSTRUCTION AND OPERATION 56 2.5.4.2 STXM RESOLUTION 58 2.5.4.3
HIGH-RESOLUTION IMAGES OF CHROMOSOMES 59 2.5.4.4 LASER PLASMA X-RAY
SOURCE FOR STXM 60 2.6 GRAZING INCIDENCE GRATING X-RAY SPECTROGRAPHS 61
2.6.1 THE GRATING EQUATION 61 2.6.2 CARBON PLASMA X-RAY SPECTRUM FROM
ROWLAND CIRCLE SPECTROMETER 63 2.6.3 LASER PLASMA XUV SPECTRA USING A
FLAT-FIELD SPECTROMETER 64 2.6.4 LASER PLASMA VUV SPECTRA USING A
NEAR-NORMAL INCIDENCE SPECTROMETER 66 2.6.4.1 VUV BEAMLINE FOR THE
PLASMA SOURCE 66 2.6.4.2 CONTINUOUSLY TUNABLE VUV BEAMLINE 68 2.7
TRANSMISSION X-RAY GRATINGS 69 2.7.1 DIFFRACTION GEOMETRY 69 2.7.2
CARBON PLASMA X-RAY SPECTRUM 71 2.8 X-RAY CRYSTAL SPECTROGRAPH 72 2.8.1
BRAGG CONDITION 72 2.8.2 PROPERTIES OF X-RAY DISPERSIVE CRYSTALS 73
2.8.3 CRYSTAL X-RAY MINISPECTROMETER 73 2.8.4 IRON PLASMA X-RAY SPECTRA
73 2.9 LENS-LESS IMAGING: X-RAY PINHOLE CAMERA 76 2.9.1 IMAGING GEOMETRY
76 2.9.2 X-RAY IMAGES OF COPPER PLASMA 77 2.9.3 SPACE-RESOLVED CARBON
PLASMA X-RAY SPECTRUM 77 2.10 GRAZING INCIDENCE X-RAY REFLECTION: THE
CRITICAL ANGLE 78 2.11 MICROCHANNEL PLATE (MCP) X-RAY OPTICS 82 2.11.1
FOCUSING GEOMETRY FOR THE FLAT MCP 82 2.11.2 MCP X-RAY BEAMLINE FOR THE
PLASMA SOURCE 83 2.11.3 MICROCHANNEL PLATE (MCP) COLLIMATING OPTICS FOR
X-RAY LITHOGRAPHY 86 2.11.3.1 COLLIMATING GEOMETRY OF SLUMPED MCP 87
2.11.3.2 THROUGHPUT-OPTIMIZED MCP COLLIMATOR FOR X-RAY LITHOGRAPHY 89
2.11.3.3 MCP COLLIMATED X-RAY SOURCE FOR THE MASS PRODUCTION OF
MICROCHIPS 92 REFERENCES 93 CONTENTS IX 3 INTERACTION OF SOFT X-RAYS
WITH MATTER: PARTICLE BEHAVIOUR (HV ~ 1 KEV) 97 3.1 PHOTOELECTRON
GENERATION 97 3.2 THE VACUUM X-RAY DIODE 101 3.2.1 THE X-RAY STREAK
CAMERA 102 3.3 THE P-I-N X-RAY DIODE 104 3.3.1 SENSITIVITY 105 3.3.2
LINEARITY 107 3.4 PHOTOGRAPHIC FILM FOR SOFT X-RAYS 109 3.5 ABSORPTION
OF SOFT X-RAYS IN MATTER 110 3.6 X-RAY FILTERS 112 3.6.1 VANADIUM
BANDPASS FILTER FOR WATER WINDOW X-RAYS 113 3.6.2 X-RAY FILTERS FOR
PROXIMITY LITHOGRAPHY 114 3.7 SOFT X-RAY ABSORPTION IN MACROMOLECULES
116 3.7.1 SOFT X-RAY ABSORPTION IN PHOTORESIST MATERIAL 116 3.7.1.1 PMMA
PHOTORESIST 117 3.7.1.2 AZ PF514 CHEMICALLY AMPLIFIED PHOTORESIST 119
3.7.1.3 EBR9 PHOTORESIST 121 3.7.2 SOFT X-RAY ABSORPTION IN BIOLOGICAL
CELLS: DNA DAMAGE 121 3.7.2.1 MONOLAYERS OF V79 MAMMALIAN CELLS 122
3.7.2.2 CALCULATION OF X-RAY DOSE 124 3.7.2.3 DNA DAMAGE BY SOFT X-RAYS
127 REFERENCES 129 4 LASER-PRODUCED PLASMAS 131 4.1 ABSORPTION OF LASER
LIGHT IN A PLASMA 131 4.2 BLACK-BODY RADIATION 138 4.3 EMISSION OF
ELECTROMAGNETIC RADIATION FROM LASER-PRODUCED PLASMAS 139 4.3.1 SPECTRAL
LINE BROADENING 141 4.3.2 COPPER PLASMA EMISSION 142 4.4 PLASMA
EQUILIBRIUM MODELS 142 4.4.1 COLLISIONAL-RADIATIVE EQUILIBRIUM (CRE)
MODEL 144 4.4.2 LOCAL THERMODYNAMIC EQUILIBRIUM (LTE) MODEL 149 4.4.3
CORONA EQUILIBRIUM (CE) MODEL 149 4.5 NUMERICAL SIMULATIONS OF CARBON
AND ALUMINIUM PLASMA EMISSIONS 150 4.5.1 THEORETICAL MODEL 151 4.5.2
SIMULATION RESULTS: PLASMA PARAMETERS 151 4.5.3 SIMULATION RESULTS:
EMISSION SPECTRA 153 4.6 MEASUREMENTS OF LASER-PRODUCED PLASMA
PARAMETERS BY OTHER LABORATORIES 158 4.6.1 PLASMA TEMPERATURE, ABLATION
PRESSURE AND MASS ABLATION RATE 158 4.6.2 X-RAY EMISSION SPECTRA 160
4.6.3 LASER TO X-RAY ENERGY CONVERSION EFFICIENCY 163 REFERENCES 166
BIBLIOGRAPHY 168 X CONTENTS 5 EXCIMER LASERS 169 5.1 WHY USE EXCIMER
LASER FOR PLASMA GENERATION? 169 5.2 PHYSICS OF EXCIMER LASERS 170 5.2.1
THE KRF LASER TRANSITION 172 5.2.2 KRF LASER BANDWIDTH: AMPLIFICATION OF
PICOSECOND PULSES 173 5.2.3 OPTICAL MATERIALS FOR HIGH PEAK POWER UV
LASER PULSES 175 5.2.4 IMPORTANT KRF EXCIMER LASER PARAMETERS 176
5.2.4.1 GAIN AND SATURATION 176 5.2.4.2 LASER ENERGY STORAGE TIME 179
5.3 SHORT PULSE ENERGY EXTRACTION FROM EXCIMER AMPLIFIERS 180 5.3.1
LASER ENERGY EXTRACTION IN TRAINS OF SHORT LASER PULSES 181 5.4 LASER
BEAM QUALITY 182 5.5 HIGH AVERAGE AND PEAK POWER COMMERCIAL EXCIMER
LASERS 182 5.5.1 TYPES OF COMMERCIAL EXCIMER LASERS 183 5.5.2 THE
LPX210I EXCIMER LASER 184 REFERENCES 187 PART II X-RAY SOURCE
CONSTRUCTION, PERFORMANCE AND APPLICATIONS 6 HIGH POWER KRF LASERS FOR
X-RAY GENERATION 191 6.1 NANOSECOND KRF EXCIMER LASER PLASMA X-RAY
SOURCE 192 6.1.1 SPRITE E-BEAM PUMPED LASER SYSTEM 192 6.1.2 LASER
SYSTEMS USING 20 NS DISCHARGE-EXCITED EXCIMERS 193 6.1.2.1 POWER
OSCILLATOR-POWER AMPLIFIER LASER SYSTEM 193 6.1.2.2 INJECTION-LOCKED
UNSTABLE RESONATOR AMPLIFIER 193 6.2 PICOSECOND PULSE-TRAIN KRF EXCIMER
SYSTEM FOR A PLASMA X-RAY SOURCE 196 6.2.1 PULSE-TRAIN PS LASER
OSCILLATOR AND POWER AMPLIFIER 197 6.3 LASER SYSTEM GENERATING A 150 PS
PULSE-TRAIN 199 6.3.1 QUENCHED DYE LASER OSCILLATOR 199 6.3.2 ACTIVE
ETALON DYE LASER AMPLIFIER FOR GENERATING PS PULSE-TRAINS 199 6.3.3
EXCIMER PS LASER POWER AMPLIFIER 200 6.4 EXCIMER SYSTEM PRODUCING 7 PS
PULSES 201 6.4.1 DESCRIPTION OF LASER SYSTEM 201 6.4.2 LABORATORY-SIZED
LASER PLASMA X-RAY SOURCE 203 6.4.3 GENERATION AND AMPLIFICATION OF
TRAINS OF PS PULSES 203 6.4.4 HIGH AVERAGE POWER PS EXCIMER LASER 204
6.4.5 OPTIMIZATION OF PS EXCIMER PULSE ENERGY 206 6.5 SCALING OF PS
EXCIMER SYSTEMS TO KW AVERAGE POWER 206 6.5.1 PARALLEL EXCIMER FINAL
AMPLIFIERS 207 6.5.2 SINGLE KW EXCIMER FINAL AMPLIFIER 207 REFERENCES
208 7 HIGH-POWER LASER PLASMA X-RAY SOURCE 212 7.1 X-RAY TARGET CHAMBER
OPTIMIZATION 212 7.1.1 LASER BEAM FOCUSING SYSTEM 212 CONTENTS XI 7.1.2
X-RAY BEAMLINES 214 7.1.3 X-RAY CHAMBER CONSTRUCTION 215 7.2 TOWARDS A
DEBRIS-FREE PLASMA X-RAY SOURCE 215 7.2.1 KRF LASER BREAKDOWN IN GASES
216 7.2.2 X-RAY EMISSION FROM COPPER TARGETS IN HELIUM AT ATMOSPHERIC
PRESSURE 218 7.2.3 REDUCTION OF TARGET DEBRIS BY THE BUFFER GAS 219
7.2.3.1 ATOMIC DEBRIS 219 7.2.3.2 CLUSTER DEBRIS 221 7.2.4 WAFER
EXPOSURE WITHOUT TARGET DEBRIS CONTAMINATION 223 7.3 LASER TO X-RAY
CONVERSION EFFICIENCY OPTIMIZATION 223 7.4 X-RAY CONVERSION EFFICIENCY
FROM LONG LASER PULSES 224 7.4.1 ANGULAR DISTRIBUTION OF X-RAY EMISSION
226 7.4.2 LASER FOCUSING CONDITIONS 227 7.4.3 X-RAY CONVERSION
EFFICIENCY MEASUREMENTS 228 7.4.4 DISCUSSION 231 7.4.5 WATER WINDOW
X-RAY CONVERSION EFFICIENCY 232 7.5 NANOSECOND SOURCE DELIVERS 16 MW
AVERAGE X-RAY POWER AT 1.4 NM WAVELENGTH 233 7.6 150 PS PULSE-TRAIN
PLASMA SOURCE GENERATES 40 MW X-RAY AVERAGE POWER AT 1 NM WAVELENGTH 234
7.7 X-RAY CONVERSION EFFICIENCY USING 4 PS EXCIMER LASER PULSES 235
7.7.1 PLASMA TEMPERATURE AND DENSITY 235 7.7.2 MAXIMUM CONVERSION
EFFICIENCY TO 1 NM X-RAYS 237 7.7.3 COMPARISON WITH OTHER WORK 238 7.7.4
PARAMETERS AFFECTING THE KEV X-RAY CONVERSION EFFICIENCY 239 7.8 X-RAY
AVERAGE POWER OF 1 W FROM A 7 PS PULSE-TRAIN EXCIMER LASER 241 7.8.1 THE
CONCEPT 242 7.8.2 X-RAY AVERAGE POWER OUTPUT 242 7.9 SCALING LAWS FOR
X-RAY AVERAGE POWER 243 7.10 SPATIAL PROPERTIES OF THE X-RAY SOURCE 244
7.11 TEMPORAL PROPERTIES OF THE X-RAY SOURCE 246 7.12 X-RAY SOURCE
SPECTRAL BRIGHTNESS AT 3.37 NM WAVELENGTH 248 7.12.1 PLASMA SOURCE
PARAMETERS AFFECTING THE SPECTRAL BRIGHTNESS 249 7.12.2 SPECTRAL
BRIGHTNESS EVALUATION 250 7.12.2.1 PHOTON FLUX 251 7.12.2.2 BANDWIDTH
251 7.12.2.3 EFFICIENT SOURCE MONOCHROMATIZATION 252 7.12.2.4 X-RAY
SOURCE SIZE AND ANGULAR EMISSION 254 7.12.3 COMPARISON WITH OTHER X-RAY
SOURCES 254 7.12.4 SPECTRAL BRIGHTNESS SCALING 255 7.12.5 PEAK SPECTRAL
BRIGHTNESS 255 7.13 X-RAY SOURCE COHERENCE 256 7.13.1 EVALUATION OF
PLASMA SOURCE COHERENCE 256 7.13.2 SPATIAL COHERENCE MEASUREMENTS 257
7.13.3 TEMPORAL COHERENCE 259 XII CONTENTS 7.13.4 DISCUSSION AND SCALING
259 REFERENCES 260 BIBLIOGRAPHY 262 8 X-RAY MICROSCOPY 263 8.1
HOLOGRAPHIC X-RAY MICROSCOPY 263 8.1.1 X-RAY BEAMLINE FOR COHERENT WATER
WINDOW X-RAYS 263 8.1.2 HOLOGRAM RECORDING 265 8.1.3 HOLOGRAM
RECONSTRUCTION 267 8.1.4 FUTURE WORK 267 8.2 SCANNING X-RAY MICROSCOPY
269 8.2.1 OPTIMIZATION OF THE PLASMA SOURCE 269 8.2.2 SCANNING X-RAY
MICROSCOPE ILLUMINATED BY A PLASMA SOURCE 272 8.2.3 SCANNING X-RAY
MICROSCOPE IMAGES 723 8.2.4 SCALING 273 REFERENCES 275 9 X-RAY MICRO-
AND NANO-ENGINEERING 276 9.1 OPTIMIZATION OF PLASMA RADIATION SOURCE FOR
LITHOGRAPHY BEAMLINES 276 9.2 EARLY WORK 278 9.3 FABRICATION OF 180 NM
FET GATES 278 9.3.1 WAFER EXPOSURE CELL 279 9.3.2 X-RAY LITHOGRAPHIC
EXPOSURE AND WAFER PROCESSING 280 9.3.3 WAFER ALIGNMENT 281 9.3.4
LITHOGRAPHY OF THE 180 NM TRANSISTOR GATE 281 9.3.5 TRANSISTOR
PERFORMANCE 283 9.3.6 MINIMIZATION OF X-RAY EXPOSURE TIME 285 9.4
FABRICATION OF DEEP, THREE-DIMENSIONAL STRUCTURES BY LIGA TECHNOLOGY 285
9.4.1 DRAWBACKS OF TRADITIONAL HARD X-RAY LIGA TECHNIQUE 286 9.4.2 NEW
SOFT X-RAY LIGA TECHNIQUE 286 9.4.3 X-RAY BEAMLINE AND EXPOSURE CELL 286
9.4.4 REPEATED EXPOSURE METHOD 287 9.4.5 DEEP, THREE-DIMENSIONAL
STRUCTURES 288 9.4.6 CAVITY AND WAVEGUIDE STRUCTURE FOR 2.5 THZ
MICROWAVES 289 9.4.7 FAST X-RAY LIGA FOR PROTOTYPING 280 REFERENCES 292
BIBLIOGRAPHY 293 10 SOFT X-RAY RADIOBIOLOGY 294 10.1 ULTRA-HIGH X-RAY
DOSE AND DOSE RATE 294 10.2 UNIFORMITY OF X-RAY EXPOSURE 295 10.3 X-RAY
EXPOSURE AT ATMOSPHERIC PRESSURE 296 10.4 MEGARAD X-RAY EXPOSURES 296
10.5 PICOSECOND X-RAY EXPOSURE 297 10.6 INTERDISCIPLINARY COLLABORATION
297 CONTENTS ** 10.7 CELL SURVIVAL MEASUREMENTS 298 10.8 DNA REPAIR
KINETICS 299 10.8.1 X-RAY IRRADIATION AUTOMATION 299 10.8.2 TRANSIENT
DNA REPAIR RATE AFTER X-RAY DAMAGE 301 REFERENCES 302 11 CONCLUSIONS 303
INDEX 306
|
any_adam_object | 1 |
author | Turcu, I. C. E. Dance, John B. |
author_facet | Turcu, I. C. E. Dance, John B. |
author_role | aut aut |
author_sort | Turcu, I. C. E. |
author_variant | i c e t ice icet j b d jb jbd |
building | Verbundindex |
bvnumber | BV012619818 |
callnumber-first | Q - Science |
callnumber-label | QC481 |
callnumber-raw | QC481 |
callnumber-search | QC481 |
callnumber-sort | QC 3481 |
callnumber-subject | QC - Physics |
classification_rvk | UH 5770 UH 6650 UQ 5600 |
ctrlnum | (OCoLC)38936668 (DE-599)BVBBV012619818 |
dewey-full | 539.7/222 |
dewey-hundreds | 500 - Natural sciences and mathematics |
dewey-ones | 539 - Modern physics |
dewey-raw | 539.7/222 |
dewey-search | 539.7/222 |
dewey-sort | 3539.7 3222 |
dewey-tens | 530 - Physics |
discipline | Physik |
format | Book |
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id | DE-604.BV012619818 |
illustrated | Illustrated |
indexdate | 2024-07-09T18:30:44Z |
institution | BVB |
isbn | 0471983977 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008571821 |
oclc_num | 38936668 |
open_access_boolean | |
owner | DE-703 DE-20 DE-11 |
owner_facet | DE-703 DE-20 DE-11 |
physical | XIII, 312 S. Ill., graph. Darst. |
publishDate | 1999 |
publishDateSearch | 1999 |
publishDateSort | 1999 |
publisher | Wiley |
record_format | marc |
spelling | Turcu, I. C. E. Verfasser aut X-rays from laser plasmas generation and applications I. C. E. Turcu and J. B. Dance Chichester [u.a.] Wiley 1999 XIII, 312 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Faisceaux laser Interactions laser-plasma ram Lasers à excimère Lasers à excimère ram Plasmas produits par laser Rayons X Rayons X ram Rayons limite Excimer lasers Grenz rays Laser beams Laser plasmas X-rays Röntgenstrahlung (DE-588)4129728-3 gnd rswk-swf Lasererzeugtes Plasma (DE-588)4139081-7 gnd rswk-swf Lasererzeugtes Plasma (DE-588)4139081-7 s Röntgenstrahlung (DE-588)4129728-3 s DE-604 Dance, John B. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008571821&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Turcu, I. C. E. Dance, John B. X-rays from laser plasmas generation and applications Faisceaux laser Interactions laser-plasma ram Lasers à excimère Lasers à excimère ram Plasmas produits par laser Rayons X Rayons X ram Rayons limite Excimer lasers Grenz rays Laser beams Laser plasmas X-rays Röntgenstrahlung (DE-588)4129728-3 gnd Lasererzeugtes Plasma (DE-588)4139081-7 gnd |
subject_GND | (DE-588)4129728-3 (DE-588)4139081-7 |
title | X-rays from laser plasmas generation and applications |
title_auth | X-rays from laser plasmas generation and applications |
title_exact_search | X-rays from laser plasmas generation and applications |
title_full | X-rays from laser plasmas generation and applications I. C. E. Turcu and J. B. Dance |
title_fullStr | X-rays from laser plasmas generation and applications I. C. E. Turcu and J. B. Dance |
title_full_unstemmed | X-rays from laser plasmas generation and applications I. C. E. Turcu and J. B. Dance |
title_short | X-rays from laser plasmas |
title_sort | x rays from laser plasmas generation and applications |
title_sub | generation and applications |
topic | Faisceaux laser Interactions laser-plasma ram Lasers à excimère Lasers à excimère ram Plasmas produits par laser Rayons X Rayons X ram Rayons limite Excimer lasers Grenz rays Laser beams Laser plasmas X-rays Röntgenstrahlung (DE-588)4129728-3 gnd Lasererzeugtes Plasma (DE-588)4139081-7 gnd |
topic_facet | Faisceaux laser Interactions laser-plasma Lasers à excimère Plasmas produits par laser Rayons X Rayons limite Excimer lasers Grenz rays Laser beams Laser plasmas X-rays Röntgenstrahlung Lasererzeugtes Plasma |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008571821&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT turcuice xraysfromlaserplasmasgenerationandapplications AT dancejohnb xraysfromlaserplasmasgenerationandapplications |