Forward recoil spectrometry: applications to hydrogen determination in solids
Gespeichert in:
| Hauptverfasser: | , , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York u.a.
Plenum Pr.
1996
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXI, 440 S. Ill., graph. Darst. |
| ISBN: | 0306452499 |
Internformat
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| 245 | 1 | 0 | |a Forward recoil spectrometry |b applications to hydrogen determination in solids |c Jorge Tirira, Yves Serruys and Patrick Trocellier |
| 264 | 1 | |a New York u.a. |b Plenum Pr. |c 1996 | |
| 300 | |a XXI, 440 S. |b Ill., graph. Darst. | ||
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| 650 | 7 | |a Solides - Spectres |2 ram | |
| 650 | 4 | |a Backscattering |x Measurement | |
| 650 | 4 | |a Materials |x Hydrogen content |x Measurement | |
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Datensatz im Suchindex
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| adam_text | FORWARD RECOIL SPECTROMETRY APPLICATIONS TO HYDROGEN DETERMINATION IN
SOLIDS JORGE TIRIRA SECTOR COURTABCEUF, FRANCE YVES SERRUYS
DTA/CEREM/DECM/SRMP CEA SACLAY, FRANCE AND PATRICK TROCELLIER CEA-CNRS
LABORATOIRE PIERRE SUE DSM/DRECAM CEA SACLAY, FRANCE PLENUM PRESS * NEW
YORK AND LONDON CONTENTS CHAPTER 1. INTRODUCTION 1.1. GENERAL
DESCRIPTION 1 1.2. OBJECTIVES 4 1.3. TOPICS 5 1.4. HISTORICAL BACKGROUND
6 1.5. EXTENSION OF THE ERDA METHOD IN IB A LABORATORIES WORLDWIDE ...
11 1.6. CONCLUSION 15 REFERENCES 15 CHAPTER 2. BASIC PHYSICAL PROCESSES
OF ELASTIC SPECTROMETRY 2.1. INTRODUCTION 21 2.2. KINEMATICS OF ELASTIC
COLLISION 22 2.2.1. MECHANICS OF THE COLLISION 22 2.2.2. KINEMATIC
FACTORS . . 26 2.3. GEOMETRIC CONSIDERATIONS 28 2.4. ENERGY LOSS 29 2.5.
STRAGGLING 33 2.5.1. THEORIES OF ENERGY STRAGGLING 33 2.5.1.1. VERY LOW
FRACTIONAL ENERGY LOSS 33 2.5.1.2. MEDIUM FRACTIONAL ENERGY LOSS 34
2.5.1.3. LARGE FRACTIONAL ENERGY LOSS 36 2.5.2. PRACTICAL STRAGGLING
EVALUATION 37 2.6. CONCLUSION 37 REFERENCES 38 CHAPTER 3. ELASTIC
SCATTERING: CROSS-SECTION AND MULTIPLE SCATTERING 3.1. INTRODUCTION 41
XIII XIV CONTENTS 3.2. ELASTIC CROSS SECTION 42 3.2.1. RUTHERFORD
SCATTERING 43 3.2.2. CROSS SECTION IN THE LABORATORY SYSTEM 45 3.2.3.
RUTHERFORD RECOIL CROSS SECTION 45 3.2.4. RUTHERFORD PROJECTILE CROSS
SECTION 46 3.2.5. LIMIT OF RUTHERFORD BEHAVIOR: THRESHOLD ENERGY 48
3.2.6. NON-RUTHERFORD SCATTERING 49 3.2.7. ALPHA-PROTON COLLISIONS UP TO
4 MEV 50 3.2.7.1. DIFFERENTIAL CROSS-SECTION CALCULATION 51 3.2.7.2.
PHASE SHIFT ANALYSES 53 3.2.7.3. DATA SELECTION 54 3.2.7.4.
SEMIEMPIRICAL EVALUATION 57 3.2.8. ALPHA-DEUTERON COLLISION UP TO 2.5
MEV 58 3.2.8.1. DATA SELECTION 59 3.2.8.2. SEMIEMPIRICAL EVALUATION 61
3.2.9. ALPHA-TRITON COLLISION UP TO 3 MEV 62 3.2.9.1. DATA SELECTION 62
3.2.9.2. SEMIEMPIRICAL EVALUATION 63 3.2.10. 3 HE-PROTON COLLISION UP TO
3 MEV 64 3.2.10.1. DATA SELECTION . . . . 66 3.2.10.2. SEMIEMPIRICAL
EVALUATION 66 3.2.11. CROSS-SECTION SUMMARY 67 3.3. MULTIPLE SCATTERING
67 3.3.1. BASIC EQUATIONS 70 3.3.1.1. NEGLECTED ENERGY LOSS EFFECTS 71
3.3.1.2. ENERGY LOSS EFFECTS 74 3.3.2. MULTIELEMENTAL TARGETS 76 3.3.3.
PRACTICAL EVALUATION 77 3.3.4. COMBINED LATERAL-ANGULAR MULTIPLE
SCATTERING 80 3.3.5. MULTIPLE SCATTERING SUMMARY 80 REFERENCES 81
CHAPTER 4. ELASTIC SPECTROMETRY: FUNDAMENTAL AND PRACTICAL ASPECTS 4.1.
INTRODUCTION 85 4.2. FUNDAMENTALS OF RECOIL SPECTROMETRY 86 4.2.1. DEPTH
SCALE 87 4.2.2. ENERGY-DEPTH RELATIONSHIP 90 4.2.3. FORWARD RECOIL YIELD
93 4.2.3.1. THIN TARGET SAMPLE 93 4.2.3.2. THICK TARGET SAMPLE 96
4.2.3.3. INFLUENCE OF ENERGY BROADENING ON A RECOIL SPECTRUM . . 99
4.2.3.4. STATISTICAL FLUCTUATIONS OF THE RECOIL YIELD 100 CONTENTS XV
4.2.4. DEPTH RESOLUTION 101 4.2.4.1. THEORETICAL EXPRESSION 101 4.2.4.2.
PRACTICAL IMPORTANCE OF DEPTH RESOLUTION 105 4.2.5. MASS RESOLUTION 108
4.2.6. SELECTIVITY 110 4.3. PRACTICAL SPECTROMETRY OF REAL TARGETS 110
4.3.1. IDEAL AND REAL TARGETS 110 4.3.2. LATERAL NONUNIFORMITY ILL
4.3.3. DEVIATIONS FROM BRAGG S RULE 115 4.3.4. BEAM DAMAGE 117 4.3.5.
INSULATORS 119 4.3.6. TARGET CRYSTALLINITY 121 4.3.7. STATISTICAL
CONSIDERATIONS 122 REFERENCES 122 CHAPTER 5. CONVENTIONAL RECOIL
SPECTROMETRY WITH HANS HOFSASS 5.1. INTRODUCTION 127 5.2. MASS-DEPTH AND
RECOIL-SCATTERED ION AMBIGUITIES 128 5.3. GLANCING GEOMETRY 130 5.3.1.
EXPERIMENTAL REFLECTION CONFIGURATION 130 5.3.2. ANALYTICAL CAPABILITIES
OF ERDA IN REFLECTION 131 5.3.2.1. MULTIELEMENTAL ANALYSIS 131 5.3.2.2.
DEPTH RESOLUTION 131 5.3.2.3. MAXIMUM ANALYZABLE DEPTH 134 5.4.
TRANSMISSION GEOMETRY 135 5.4.1. EXPERIMENTAL TRANSMISSION CONFIGURATION
135 5.4.2. ANALYTIC CAPABILITIES OF ERDA IN TRANSMISSION 135 5.4.2.1.
SURFACE ROUGHNESS AND THICKNESS HETEROGENEITY .... 136 5.4.2.2.
DETECTION NEAR ZERO DEGREE 136 5.4.2.3. MAXIMUM ANALYZABLE DEPTH 136
5.4.2.4. RECOIL-PROJECTILE AMBIGUITY 136 5.4.2.5. DEPTH RESOLUTION 137
5.4.2.6. MICROBEAM CAPABILITIES 137 5.5. SENSITIVITY 137 5.6. MASS
RESOLUTION 138 REFERENCES 139 CHAPTER 6. TIME OF FLIGHT ERDA WITH NICK
DYTLEWSKI 6.1. INTRODUCTION 143 XVI CONTENTS 6.2. GENERAL CONSIDERATIONS
144 6.3. TIME OF FLIGHT DETECTOR 146 6.4. ELECTROSTATIC MIRROR DETECTOR
150 6.5. EFFICIENCY AND RESOLUTION 152 6.5.1. EFFICIENCY 152 6.5.2. MASS
RESOLUTION 153 6.5.3. DEPTH RESOLUTION 156 6.6. DATA ANALYSIS PROCEDURE
158 6.7. CONCLUSION 159 REFERENCES 159 CHAPTER 7. DEPTH PROFILING BY
MEANS OF THE ERDAXB TECHNIQUE WITH GUY ROSS 7.1. INTRODUCTION 163 7.2.
PHYSICS AND PROPERTIES OF THE EXB FILTER 164 7.3. PRACTICAL
CONSIDERATIONS 167 7.3.1. CORRECTION FOR UNDETECTED CHARGE FRACTIONS 167
7.3.2. DEPTH RESOLUTION 167 7.3.3. DEPTH PROFILING IN LOW-Z MATERIALS
168 7.3.4. ION-BEAM-INDUCED DEPLETION 168 7.4. ADJUSTMENTS FORA 350-KEV
HELIUM BEAM 171 7.4.1. HYDROGEN DEPTH PROFILING 171 7.4.2. DEUTERIUM
DEPTH PROFILING 174 7.4.3. TRITIUM DEPTH PROFILING 176 7.4.4. 3 HE DEPTH
PROFILING 177 7.4.5. 4 HE DEPTH PROFILING 178 7.5. DEPTH PROFILING WITH
A HIGH-ENERGY (MEV) BEAM 179 7.5.1. 4 HE 1-MEVBEAM 179 7.5.2. 4
HE2.5-MEV BEAM 179 7.5.3. 15 N 2.65-MEV BEAM 181 7.6. MODIFIED EXB
FILTER FOR HEAVIER ELEMENTS 182 7.6.1. THE B-EXB-B FILTER 183 7.6.2.
FILTER DESIGN 184 7.6.3. PERFORMANCE EVALUATION 185 7.7. CONCLUSION 192
REFERENCES 193 CHAPTER 8. RECOIL SPECTROMETRY WITH A AE-E TELESCOPE 8.1.
INTRODUCTION 195 8.2. EXPERIMENTAL CONSIDERATIONS 196 8.3. PERFORMANCES
199 CONTENTS XVII 8.3.1. MASS AND CHARGE SEPARATION 199 8.3.2. DEPTH
RESOLUTION 199 8.3.3. SENSITIVITY 201 8.4. EXAMPLES 202 8.5. CONCLUSION
205 REFERENCES 206 CHAPTER 9. COINCIDENCE TECHNIQUES WITH HANS HOFSDSS
9.1. INTRODUCTION 209 9.2. TRANSMISSION GEOMETRY AND COINCIDENCE
TECHNIQUES 211 9.3. SINGLE-ELEMENT ANALYSIS WITH CERDA 212 9.3.1.
SCATTERING KINEMATICS 214 9.3.2. EXPERIMENTAL SET-UP AND COINCIDENCE
MEASURING SYSTEMS . * 217 9.3.3. MULTIPLE SCATTERING 219 9.4.
MULTIPLE-ELEMENT ANALYSIS WITH CERDA 220 9.5. SCATTERING RECOIL
COINCIDENCE SPECTROSCOPY 227 9.6. ELASTIC RECOIL COINCIDENCE
SPECTROSCOPY 230 9.6.1. BASIC CONSIDERATIONS 231 9.6.2. APPLICATION:
PROFILING CARBON AND OXYGEN IN POLYCARBONATE . . 232 9.6.3. DATA
ANALYSIS 235 9.7. POSITION-SENSITIVE DETECTORS FOR COINCIDENCE ERDA
TECHNIQUES . . . 239 9.8. CONCLUSION 242 REFERENCES 243 CHAPTER 10.
INSTRUMENTAL EQUIPMENT 10.1. INTRODUCTION 247 10.2. ACCELERATOR AND
RELATED EQUIPMENT 247 10.2.1. ACCELERATOR 247 10.2.2. RELATED EQUIPMENT
248 10.3. BEAM LINE 249 10.4. ANALYSIS CHAMBER 249 10.4.1. TARGET HOLDER
250 10.4.2. BEAM CURRENT MEASUREMENT 251 10.4.3. VACUUM AND TRAPPING OF
CONTAMINANTS 251 10.5. DETECTION DEVICES 252 10.5.1. DESCRIPTION 252
10.5.1.1. SILICON BARRIER DETECTORS 252 10.5.1.2. ENERGY CALIBRATION OF
THE DETECTION SYSTEM . . . .253 10.5.1.3. DETECTION COLLIMATORS AND
ABSORBER FOIL 254 10.5.1.4. OTHER DETECTION DEVICES 255 XVIII CONTENTS
10.5.2 USUAL PERFORMANCES 258 10.6. CONCLUSION 258 REFERENCES 259
CHAPTER 11. NUMERICAL METHODS FOR RECOIL SPECTRA SIMULATION AND DATA
PROCESSING 11.1. INTRODUCTION 263 11.2. SIMULATION PROCESS: BASIC METHOD
265 11.2.1. ENERGY LOSS OF THE INCIDENT ION 266 11.2.2. COLLISION EVENTS
AND RECOIL YIELDS 267 11.2.3. ENERGY LOSS OF RECOILS 268 11.2.4. TOTAL
SPECTRUM 268 11.2.5. ENERGY STRAGGLING 269 11.2.6. MULTIPLE SCATTERING
269 11.2.7. TOTAL ENERGY DISPERSION 270 11.3. ALTERNATIVE SIMULATION
PROCESS: RETROGRADE METHOD 271 11.3.1. PRINCIPLE 271 11.3.2. ENERGY LOSS
AND COLLISION KINEMATICS 273 11.3.3. RECOIL YIELDS 273 11.4. PROFILE
EXTRACTION FROM EXPERIMENTAL SPECTRA 274 11.4.1. METHODS 274 11.4.1.1.
INTERACTIVE MODIFICATION METHOD 274 11.4.1.2. MULTIPARAMETRIC FIT 275
11.4.1.3. SPECTRUM-SCALING METHOD 275 11.4.1.4. ITERATIVE PROFILE
RECONSTITUTION METHOD 276 11.4.2. CONVERTING INTO DEPTH PROFILES 277
11.4.3. EXPERIMENTAL PARAMETERS 278 11.4.4. COUNTING STATISTICS 280
11.4.4.1. COUNTING NOISE 280 11.4.4.2. NOISE FILTERING 281 11.4.5.
PARTICULAR TARGET BEHAVIORS 282 11.4.5.1. LATERAL NONUNIFORMITY 282
11.4.5.2. CHARGE ACCUMULATION IN INSULATORS 284 11.4.6. MASS-DEPTH
AMBIGUITY 285 11.5. ALGORITHMS AND PROGRAMS 286 11.5.1. TYPICAL SOFTWARE
286 11.5.1.1. RUMP SIMULATION ALGORITHM 286 11.5.1.2. RBX SIMULATION AND
ANALYSIS PROGRAM 287 11.5.1.3. LORI ANALYSIS PROGRAM 288 11.5.1.4. GABY
SIMULATION AND PROFILE OPTIMIZATION ALGORITHM 288 11.5.1.5. GISA
SIMULATION AND ANALYSIS PROGRAM 289 11.5.2. HARDWARE 289 CONTENTS 11.6.
ADAPTATION TO OTHER ERDA VARIANTS 289 11.6.1. TIME OF FLIGHT ERDA 290
11.6.2. ERDA WITH EXB FILTERS 291 11.6.3. ERDA WITH AE-E TELESCOPES 292
11.6.4. COINCIDENCE ERDA 293 11.7. CONCLUSION . . . 293 REFERENCES 295
CHAPTER 12. APPLICATIONS OF ELASTIC RECOIL SPECTROMETRY TO HYDROGEN
DETERMINATION IN SOLIDS 12.1. INTRODUCTION 299 12.2. APPLICATIONS IN
POLYMER SCIENCES 300 12.2.1. SURFACE PROPERTIES 300 12.2.2. POLYMER
BLENDS 301 12.2.3. POLYMER IRRADIATION 301 12.3. APPLICATIONS TO
SEMICONDUCTOR MATERIALS 302 12.3.1. SILICON-BASED MEDIA 303 12.3.2.
GERMANIUM-BASED MEDIA 305 12.3.3. OTHER MEDIA 305 12.4. APPLICATIONS TO
THIN FILMS 305 12.4.1. METAL AND INORGANIC COMPOUND LAYERS 306 12.4.2.
AMORPHOUS CARBON FILMS AND DIAMONDLIKE CARBON LAYERS. .308 12.5. STUDY
OF INTERFACE REACTIONS 312 12.5.1. SURFACE CORROSION MECHANISMS 312
12.5.2. WEAR TRANSFER PROCESS 312 12.6. OTHER APPLICATION FIELDS 315
12.7. STUDY OF HYDROGEN BEHAVIOR UNDER IRRADIATION 316 12.8. CONCLUSION
317 REFERENCES 317 BIBLIOGRAPHY 323 CHAPTER 13. ELASTIC RECOIL
SPECTROMETRY USING HIGH-ENERGY IONS FOR HYDROGEN AND LIGHT ELEMENT
PROFILING 13.1. INTRODUCTION 325 13.2. GENERAL CONSIDERATIONS 326
13.2.1. KINEMATICS 326 13.2.2. RUTHERFORD CROSS SECTION FOR RECOIL
SCATTERING WITH HIGH-ENERGY HEAVY IONS 327 13.2.3. CROSS SECTION FOR
RECOIL SCATTERING WITH HIGH-ENERGY 4 HE IONS 329 13.3. EXPERIMENTAL
ARRANGEMENT FOR HI-ERDA 330 XX CONTENTS 13.4. DETECTION CAPABILITIES 331
13.4.1. ENERGY RESOLUTION 331 13.4.2. DEPTH RESOLUTION 333 13.4.3.
LIMITATIONS 335 13.5. APPLICATION EXAMPLES 337 13.5.1. ERDA USING
HIGH-ENERGY 4 HE IONS 337 13.5.2. ERDA USING HIGH-ENERGY HEAVY IONS 337
13.6. CONCLUSION 348 REFERENCES 349 BIBLIOGRAPHY 351 CHAPTER 14.
ION-BEAM DAMAGING EFFECTS 14.1. INTRODUCTION 353 14.2. BASIC
CONSIDERATIONS ON ION-BEAM DAMAGING 355 14.2.1. THERMAL EFFECTS 355
14.2.2. ELECTRONIC DEFECTS AND BOND BREAKING 358 14.2.3. BALLISTIC
DAMAGE 361 14.2 A. CHARGE ACCUMULATION EFFECTS 362 14.3. ELEMENTAL
LOSSES 363 14.3.1. HYDROGEN LOSS FROM POLYMERS 363 14.3.2.
IRRADIATION-ENHANCED DIFFUSION OF HYDROGEN IN SOLIDS .... 365 14.3.3.
IRRADIATION-ENHANCED HYDROGEN DESORPTION 367 14.3.4. BEHAVIOR OF OTHER
ELEMENTS 370 14.4. REDUCTION OF RADIATION DAMAGE 376 14.5. CHOICE,
PREPARATION, AND STABILITY OF STANDARD SAMPLES 377 14.5.1. INTRODUCTION
377 14.5.2. HYDROGEN STANDARD SAMPLES 377 14.5.3. OTHER STANDARDS 379
14.6. CONCLUSION 380 REFERENCES 381 BIBLIOGRAPHY 385 CHAPTER 15.
HYDROGEN DETERMINATION BY NUCLEAR RESONANCE 15.1. INTRODUCTION 387 15.2.
GENERAL CONSIDERATIONS 392 15.2.1. RESONANCE OCCURRENCE 392 15.2.2.
PHYSICAL EFFECTS 392 15.2.2.1. ENERGY STRAGGLING 393 15.2.2.2. RECOIL
395 15.2.2.3. DOPPLER BROADENING 395 15.2.2.4. LEWIS EFFECT 396 CONTENTS
XXI 15.3. HYDROGEN PROFILING BY NUCLEAR RESONANCE 396 15.3.1. BASIC
PRINCIPLE 396 15.3.2. ANALYTIC CHARACTERISTICS 398 15.4. COMPARISON WITH
ELASTIC RECOIL SPECTROMETRY 399 15.4.1. INTRODUCTION 399 15.4.2.
TECHNICAL COMPARISON 400 15.4.3. ARGUMENTS FOR A PRACTICAL CHOICE 401
15.5. CONCLUSION 401 REFERENCES 402 BIBLIOGRAPHY 404 GENERAL CONCLUSION
407 ACKNOWLEDGMENTS 411 APPENDIX A. BASIC DATA REFERENCES 413 APPENDIX
B. CALCULATION OF THE DETECTION SOLID ANGLE 423 APPENDIX C. SPECIFIC
UNITS, PHYSICAL CONSTANTS, AND CONVERSION FACTORS . . . 429 APPENDIX D.
RECENT REFERENCES 431 APPENDIX E. ACRONYMS 433 INDEX 435
|
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| id | DE-604.BV011521222 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T18:11:09Z |
| institution | BVB |
| isbn | 0306452499 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-007752997 |
| oclc_num | 35209414 |
| open_access_boolean | |
| owner | DE-384 DE-19 DE-BY-UBM DE-703 DE-91G DE-BY-TUM |
| owner_facet | DE-384 DE-19 DE-BY-UBM DE-703 DE-91G DE-BY-TUM |
| physical | XXI, 440 S. Ill., graph. Darst. |
| publishDate | 1996 |
| publishDateSearch | 1996 |
| publishDateSort | 1996 |
| publisher | Plenum Pr. |
| record_format | marc |
| spelling | Tirira, Jorge Verfasser aut Forward recoil spectrometry applications to hydrogen determination in solids Jorge Tirira, Yves Serruys and Patrick Trocellier New York u.a. Plenum Pr. 1996 XXI, 440 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Matériaux - Teneur en hydrogène - Mesure ram Rétrodiffusion - Mesure ram Solides - Spectres ram Backscattering Measurement Materials Hydrogen content Measurement Solids Spectra Measurement Spektroskopie (DE-588)4056138-0 gnd rswk-swf Rückstreuung (DE-588)4178653-1 gnd rswk-swf Rückstreuung (DE-588)4178653-1 s Spektroskopie (DE-588)4056138-0 s DE-604 Serruys, Yves Verfasser aut Trocellier, Patrick Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007752997&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Tirira, Jorge Serruys, Yves Trocellier, Patrick Forward recoil spectrometry applications to hydrogen determination in solids Matériaux - Teneur en hydrogène - Mesure ram Rétrodiffusion - Mesure ram Solides - Spectres ram Backscattering Measurement Materials Hydrogen content Measurement Solids Spectra Measurement Spektroskopie (DE-588)4056138-0 gnd Rückstreuung (DE-588)4178653-1 gnd |
| subject_GND | (DE-588)4056138-0 (DE-588)4178653-1 |
| title | Forward recoil spectrometry applications to hydrogen determination in solids |
| title_auth | Forward recoil spectrometry applications to hydrogen determination in solids |
| title_exact_search | Forward recoil spectrometry applications to hydrogen determination in solids |
| title_full | Forward recoil spectrometry applications to hydrogen determination in solids Jorge Tirira, Yves Serruys and Patrick Trocellier |
| title_fullStr | Forward recoil spectrometry applications to hydrogen determination in solids Jorge Tirira, Yves Serruys and Patrick Trocellier |
| title_full_unstemmed | Forward recoil spectrometry applications to hydrogen determination in solids Jorge Tirira, Yves Serruys and Patrick Trocellier |
| title_short | Forward recoil spectrometry |
| title_sort | forward recoil spectrometry applications to hydrogen determination in solids |
| title_sub | applications to hydrogen determination in solids |
| topic | Matériaux - Teneur en hydrogène - Mesure ram Rétrodiffusion - Mesure ram Solides - Spectres ram Backscattering Measurement Materials Hydrogen content Measurement Solids Spectra Measurement Spektroskopie (DE-588)4056138-0 gnd Rückstreuung (DE-588)4178653-1 gnd |
| topic_facet | Matériaux - Teneur en hydrogène - Mesure Rétrodiffusion - Mesure Solides - Spectres Backscattering Measurement Materials Hydrogen content Measurement Solids Spectra Measurement Spektroskopie Rückstreuung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007752997&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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