Verfügbarkeit: Crystal growth technology

Crystal growth technology:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Norwich, NY Andrew 2003 Berlin [u.a.] Springer
Schriftenreihe:	Springer series in materials processing Physics and astronomy online library
Schlagworte:	Crystal growth Kristallwachstum
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 590 S. Ill., graph. Darst.
ISBN:	3540003673 0815514530

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Datensatz im Suchindex

_version_	1808226137762955264
adam_text	CONTENTS 1 GROWTH HISTORIES OF MINERAL CRYSTALS AS SEEN FROM THEIR MORPHOLOGICAL FEATURES ICHIRO SUNAGAWA . 1 1.1 INTRODUCTION . 1 1.2 MORPHOLOGY OF CRYSTALS . 3 1.3 DIAMOND . 7 1.4 BERYL . 13 1.5 TRAPICHE RUBY . 18 1.6 SUMMARY . 22 REFERENCES . 22 2 THEORY OF CRYSTAL GROWTH FROM VAPOR AND SOLUTION TOSHIHARU IRISAWA . 25 2.1 VARIOUS CRYSTAL GROWTH PROCESSES . 25 2.1.1 DRIVING FORCE . 25 2.1.2 RATE-DETERMINING PROCESS . 27 2.2 VAPOR GROWTH . 28 2.2.1 STEP VELOCITY . 31 2.2.2 MECHANISM OF TWO-DIMENSIONAL NUCLEATION GROWTH . 35 2.2.3 MECHANISM OF SPIRAL GROWTH . 39 2.3 GROWTH OF A CRYSTAL IN A SOLUTION . 42 2.3.1 SOLVATION EFFECTS AND GROWTH RATES . 42 2.3.2 HANDLING OF POLYHEDRAL FINITE CRYSTALS . 49 REFERENCES . 54 3 EPITAXIAL GROWTH OF HI-V COMPOUNDS T. NISHINAGA AND S. NARITSUKA . 55 3.1 INTRODUCTION . 55 3.2 MBE OF III-V COMPOUNDS . 56 3.2.1 MBE SYSTEM . 56 3.2.2 RHEED INTENSITY OSCILLATION . 57 3.2.3 SURFACE DIFFUSION AND STEPPED SURFACE . 59 3.2.4 2D-NUCLEATION AND STEP FLOW MODES . 61 XIV CONTENTS 3.2.5 CRITICAL TEMPERATURE AND GROWTH CONDITIONS . 64 3.2.6 INCORPORATION DIFFUSION LENGTH . 66 3.2.7 INTERSURFACE DIFFUSION . 68 3.2.8 ELEMENTARY GROWTH PROCESSES . 70 3.3 MOCVD OF IH-V COMPOUNDS . 71 3.3.1 GROWTH OF HIGH-PURITY MATERIALS BY MOCVD . 71 3.3.2 IN SITU MONITORING AND STUDY OF GROWTH KINETICS IN MOCVD . 75 3.3.3 NANOSTRUCTURE FABRICATION BY MOCVD . 80 3.3.4 HIGHLY-MISMATCHED HETEROEPITAXY AND MICROCHANNEL EPITAXY WITH MOCVD . 84 3.4 SUMMARY . 89 REFERENCES . 90 4 CVD DIAMOND GROWTH C. CHANG, Y. LIAO, G.Z. WANG, Y.R. MA, AND R.C. FANG . 93 4.1 INTRODUCTION . 93 4.2 PREPARATION AND APPLICATION OF CVD DIAMOND FILM . 94 4.2.1 PREPARATION METHODS . 94 4.2.2 APPLICATIONS OF DIAMOND FILM . 98 4.3 NUCLEATION AND GROWTH OF DIAMOND FILMS . 102 4.3.1 HOMOEPITAXY OF DIAMOND FILM . 102 4.3.2 HETEROEPITAXY OF DIAMOND FILM . 103 4.4 PHASE DIAGRAM AND GAS-PHASE SPECIES IN CVD DIAMOND GROWTH PROCESSES . ILL 4.4.1 PHASE DIAGRAM . 112 4.4.2 GAS PHASE SPECIES . 113 4.5 IN SITU DIAGNOSTIC TECHNIQUES FOR DIAMOND GROWTH . 116 4.5.1 MOLECULAR BEAM MASS SPECTROSCOPY . 117 4.5.2 LASER-INDUCED FLUORESCENCE . 120 4.5.3 OPTICAL EMISSION SPECTROSCOPY . 123 4.6 SUMMARY . 131 REFERENCES . 132 5 LASER-ASSISTED GROWTH AND CHARACTERIZATION OF MULTICOMPONENT LEAD-ZIRCONATE-TITANATE FILMS JYRKI LAPPALAINEN, JOHANNES FRANTTI, AND VILHO LANTTO . 143 5.1 INTRODUCTION . 143 5.1.1 LASER-ASSISTED GROWTH OF THIN FILMS . 143 5.1.2 FERROELECTRIC PZT THIN FILMS . 144 5.2 FILM DEPOSITION PROCESS . 145 5.2.1 PRINCIPLES OF PULSED-LASER-DEPOSITION TECHNIQUE . 145 5.2.2 GROWTH AND STRUCTURE OF THIN FILMS . 147 5.3 CASE STUDY: ND-MODIFIED PZT FILMS . 149 5.4 RESULTS FROM XRD AND EDS MEASUREMENTS . 151 5.5 COMPOSITIONAL AND STRUCTURAL CHANGES IN THE TARGET . 154 CONTENTS XV 5.6 RAMAN SPECTROSCOPY STUDIES OF PZT FILMS . 158 5.6.1 BASIC CONCEPTS OF THE RAMAN EFFECT . 158 5.6.2 RAMAN ACTIVE MODES . 160 5.6.3 RAMAN SPECTRA OF CERAMICS . 160 5.6.4 RAMAN ACTIVE PHONONS OF PZT CERAMICS . 161 5.6.5 CHARACTERISTIC FEATURES OF THE RAMAN SCATTERING FROM THE STRUCTURAL POINT OF VIEW . 162 5.6.6 RAMAN SPECTRA OF PZT THIN FILMS . 163 5.7 ELECTRICAL PROPERTIES OF PNZT FILMS . 166 5.7.1 PERMITTIVITY AND SPONTANEOUS POLARIZATION . 166 5.7.2 ELECTRONIC CONDUCTION . 168 5.7.3 ROLE OF MACROSCOPIC RESIDUAL STRESSES . 171 5.8 SUMMARY . 174 REFERENCES . 176 6 SILICON CARBIDE CRYSTALS - PART I: GROWTH AND CHARACTERIZATION G. DHANARAJ, X.R. HUANG, M. DUDLEY, V. PRASAD, AND R.-H. MA . 181 6.1 INTRODUCTION . 181 6.1.1 APPLICATIONS OF SIC . 183 6.1.2 HISTORICAL DEVELOPMENT OF SIC CRYSTAL GROWTH . 185 6.2 VAPOR GROWTH . 186 6.2.1 ACHESON METHOD . 186 6.2.2 LELY METHOD . 187 6.2.3 MODIFIED LELY METHOD . 189 6.2.4 SUBLIMATION SANDWICH METHOD . 190 6.2.5 CHEMICAL VAPOR DEPOSITION . 191 6.3 HIGH TEMPERATURE SOLUTION GROWTH . 193 6.3.1 BULK GROWTH . 193 6.3.2 LIQUID PHASE EPITAXY . 193 6.4 BULK GROWTH BY SEEDED SUBLIMATION: THE INDUSTRIAL PROCESS . 194 6.4.1 GROWTH SYSTEM . 195 6.4.2 SEEDING AND GROWTH PROCESS . 197 6.5 DOPING IN BULK AND EPITAXIAL GROWTH . 200 6.5.1 DOPING IN MODIFIED LELY METHOD . 200 6.5.2 DOPING IN EPITAXIAL FILMS . 200 6.6 GROWTH DEFECTS . 201 6.6.1 GROWTH SPIRALS AND MICROPIPES . 201 6.6.2 POLYTYPISM . 202 6.6.3 GRAPHITIZATION . 203 6.7 DEFECT ANALYSIS . 204 6.7.1 MICROPIPES AND CLOSED CORE SCREW DISLOCATIONS . 204 6.7.2 BASAL PLANE DISLOCATIONS . 221 6.7.3 SMALL ANGLE BOUNDARIES . 221 6.7.4 HEXAGONAL VOIDS . 222 6.8 SUMMARY . 223 XVI CONTENTS REFERENCES . 225 7 SILICON CARBIDE CRYSTALS - PART II: PROCESS PHYSICS AND MODELING Q.-S. CHEN, V. PRASAD, H. ZHANG, AND M. DUDLEY . 233 7.1 INTRODUCTION . 235 7.2 MODELING OF HEAT AND MASS TRANSFER AND GROWTH RATE . 236 7.2.1 GROWTH PROCESS . 236 7.2.2 FLOW AND HEAT TRANSFER PARAMETERS . 237 7.2.3 ONE-DIMENSIONAL NETWORK MODEL . 240 7.2.4 THERMAL TRANSPORT MODEL . 241 7.2.5 MASS TRANSPORT MODEL . 244 7.2.6 NUMERICAL METHOD . 249 7.3 GROWTH SIMULATION . 251 7.3.1 ELECTROMAGNETIC FIELD AND HEAT GENERATION . 251 7.3.2 TEMPERATURE FIELD . 253 7.3.3 GROWTH RATE CALCULATIONS . 257 7.3.4 THERMALLY INDUCED STRESS . 263 7.4 SUMMARY . 265 REFERENCES . 266 8 THERMODYNAMICS OF MULTICOMPONENT PEROVSKITE SYNTHESIS IN HYDROTHERMAL SOLUTION MALGORZATA M. LENCKA AND RICHARD E. RIMAN . 271 8.1 INTRODUCTION . 271 8.2 THERMODYNAMIC MODEL . 272 8.2.1 COMPUTATIONAL METHOD .274 8.2.2 STANDARD-STATE PROPERTIES . 276 8.2.3 STABILITY AND YIELD DIAGRAMS .277 8.2.4 STABILITY AND YIELD DIAGRAMS FOR THE STOICHIOMETRIC RATIO OF PRECURSORS (A/B = 1) . 279 8.2.5 STABILITY AND YIELD DIAGRAMS FOR THE NONSTOICHIOMETRIC RATIO OF PRECURSORS (A/B 1) . 286 8.2.6 CARBON DIOXIDE CONTAMINATION . 289 8.3 VALIDATION AND APPLICATIONS OF THERMODYNAMIC MODELING . 292 8.4 SUMMARY . 294 REFERENCES . 294 9 GROWTH OF MULTICOMPONENT PEROVSKITE OXIDE CRYSTALS: SYNTHESIS CONDITIONS FOR THE HYDROTHERMAL GROWTH OF FERROELECTRIC POWDERS BONNIE L. GERSTEN . 299 9.1 INTRODUCTION . 299 9.2 GENERAL OVERVIEW . 299 9.2.1 DESCRIPTION . 299 9.2.2 PEROVSKITE FERROELECTRICS . 300 CONTENTS XVII 9.2.3 HISTORY . 301 9.3 SYNTHESIS CONDITIONS FOR CONTROLLED CHEMICAL AND PHASE PURITY . 305 9.3.1 THERMODYNAMIC CONDITIONS . 305 9.3.2 MINERALIZERS AND ADDITIVES . 309 9.3.3 HOMOGENEITY . 310 9.3.4 REACTION TIME AND TEMPERATURE . 311 9.3.5 HYDROXYL GROUPS . 311 9.3.6 SUMMARY . 312 9.4 KINETICS AND RATE CONTROLLING MECHANISMS . 312 9.4.1 RATE DETERMINING STEP IN THE MECHANISMS . 312 9.4.2 PRECIPITATION . 314 9.4.3 REACTION RATE . 314 9.4.4 VARIABLES AFFECTING THE REACTION RATE . 318 9.5 SYNTHESIS CONDITIONS FOR CONTROLLED MORPHOLOGY . 319 9.5.1 PRECURSOR . 319 9.5.2 TEMPERATURE . 321 9.5.3 REAGENT CONCENTRATION . 322 9.5.4 ADDITIVES . 322 9.5.5 MINERALIZER TYPE AND CONCENTRATION . 322 9.5.6 SUMMARY . 324 9.6 SYNTHESIS CONDITIONS FOR CONTROLLED PARTICLE SIZE . 324 9.6.1 PRECURSOR . 324 9.6.2 CONCENTRATION AND MOLAR RATIO . 325 9.6.3 MINERALIZER TYPE AND CONCENTRATION . 325 9.6.4 REACTION TIME . 326 9.6.5 TEMPERATURE . 326 9.6.6 SUMMARY . 326 9.7 SUMMARY . 327 REFERENCES . 327 10 CRYSTAL GROWTH, SIZE, AND MORPHOLOGY CONTROL OF ND:RVO 4 UNDER HYDROTHERMAL CONDITIONS K. BYRAPPA, B. NIRMALA, K.M. LOKANATHA RAI, AND M. YOSHIMURA . 335 10.1 INTRODUCTION . 335 10.2 TECHNOLOGICALLY IMPORTANT VANADATES . 336 10.3 PHASE EQUILIBRIA . 336 10.4 STRUCTURE OF ND:RVO 4 . 338 10.5 SYNTHESIS AND GROWTH OF RARE EARTH VANADATES . 339 10.5.1 ZONE MELTING . 339 10.5.2 CZOCHRALSKI TECHNIQUE . 340 10.5.3 FLUX GROWTH . 341 10.5.4 TOP SEEDED SOLUTION GROWTH (TSSG) . 342 10.6 SOLUBILITY STUDY . 343 10.7 CRYSTAL GROWTH . 347 10.8 MORPHOLOGY . 351 XVIII CONTENTS 10.8.1 SURFACE MORPHOLOGY . 355 10.9 CHARACTERIZATION . 358 10.9.1 XRD AND IR STUDIES . 358 10.9.2 LASER SPECTROSCOPY . 358 10.9.3 ABSORPTION MEASUREMENTS . 361 10.10 SUMMARY . 362 REFERENCES . 363 11 HYDROTHERMAL GROWTH OF QUARTZ UNDER SPECIFIC CONDITIONS AND THE RAMAN SPECTRA OF ION SPECIES IN A HYDROTHERMAL GROWTH SOLUTION M. HOSAKA . 365 11.1 INTRODUCTION . 365 11.1.1 GROWTH OF QUARTZ WITH SMALL CONTENT OF AL 3+ . 367 11.1.2 SYNTHESIS OF MICRO A-QUARTZ CRYSTALS BY HYDROTHERMAL HOT-PRESSING METHOD . 368 11.1.3 GROWTH OF QUARTZ CRYSTALS ABOVE TRANSITION TEMPERATURE AND MORPHOLOGY OF SYNTHETIC CRYSTALS . 368 11.1.4 RAMAN SPECTRAL STUDIES OF SIO 2 -NAOH-H 2 O AND SIO 2 -NA 2 CO 3 -H 2 O SYSTEM SOLUTIONS UNDER HYDROTHERMAL CONDITIONS .369 11.2 GROWTH OF QUARTZ WITH POOR AL 3+ CONTENT . 370 11.2.1 EXPERIMENTAL METHOD . 370 11.2.2 EXPERIMENTAL RESULTS . 371 11.3 SYNTHESIS OF MICRO A-QUARTZ CRYSTALS BY HYDROTHERMAL HOT-PRESS METHOD .372 11.3.1 EXPERIMENTAL METHOD . 372 11.3.2 EXPERIMENTAL RESULTS . 373 11.4 GROWTH AND MORPHOLOGY OF QUARTZ CRYSTALS SYNTHESIZED ABOVE TRANSITION TEMPERATURE .374 11.4.1 EXPERIMENTAL METHOD . 374 11.4.2 EXPERIMENTAL RESULTS . 376 11.5 RAMAN SPECTRAL STUDIES OF THE SOLUTION CHEMISTRY OF SIO 2 -NAOH H 2 O AND SIO 2 -NA 2 CO 3 -H 2 O SYSTEMS UNDER HYDROTHERMAL CONDITIONS . 379 11.5.1 EXPERIMENTAL METHOD . 379 11.5.2 EXPERIMENTAL RESULTS . 381 11.5.3 DISCUSSION . 383 11.5.4 SUMMARY . 384 REFERENCES . 384 12 GROWTH AND CHARACTERIZATION OF TECHNOLOGICALLY IMPORTANT OXIDE SINGLE CRYSTALS KRISHAN LAL, R.V. ANANTHA MURTHY, ASHUTOSH CHOUBEY, AND NIRANJANA GOSWAMI . 387 12.1 INTRODUCTION . 387 CONTENTS XIX 12.2 CRYSTALLOGRAPHIC STRUCTURE . 388 12.3 GROWTH OF LITHIUM NIOBATE CRYSTALS: EARLIER WORK . 389 12.4 GROWTH OF BISMUTH GERMANATE CRYSTALS: EARLIER WORK . 390 12.5 A CRYSTAL GROWTH SYSTEM FOR CZ GROWTH OF NEARLY PERFECT CRYSTALS . 392 12.5.1 A CRYSTAL GROWTH SYSTEM FOR LOW THERMAL GRADIENT CZOCHRALSKI (LTG CZ) TECHNIQUE . 393 12.6 HIGH RESOLUTION X-RAY DIFFRACTOMETERS . 395 12.6.1 DOUBLE CRYSTAL X-RAY DIFFRACTOMETER . 395 12.6.2 FIVE CRYSTAL X-RAY DIFFRACTOMETER . 397 12.7 SYNTHESIS OF LITHIUM NIOBATE AND BISMUTH GERMANATE POWDERS . 398 12.8 GROWTH OF NEARLY PERFECT CRYSTALS OF LINBO 3 AND BGO . 400 12.8.1 LINBO 3 SINGLE CRYSTALS . 400 12.8.2 BISMUTH GERMANATE SINGLE CRYSTALS . 402 12.9 EVALUATION OF PERFECTION OF LITHIUM NIOBATE AND BISMUTH GERMANATE SINGLE CRYSTALS BY HIGH RESOLUTION X-RAY DIFFRACTOMETRY AND TOPOGRAPHY . 404 12.9.1 CHARACTERIZATION OF LITHIUM NIOBATE CRYSTALS . 405 12.9.2 CHARACTERIZATION OF BISMUTH GERMANATE SINGLE CRYSTALS . 407 12.10 SUMMARY . 412 REFERENCES . 413 13 GROWTH AND DEVELOPMENT OF NONLINEAR OPTICAL BORATE CRYSTALS FOR GENERATION OF VISIBLE AND UV LIGHT TAKATOMO SASAKI, YUSUKE MORI, MASAHI YOSHIMURA, AND YOKE KHIN YAP . 419 13.1 INTRODUCTION . 419 13.1.1 COHERENT SOLID-STATE LIGHT SOURCE IN THE VISIBLE AND UV REGIONS BY NONLINEAR OPTICAL CRYSTALS . 419 13.1.2 NLO BORATE CRYSTALS . 420 13.2 CLBO CRYSTALS FOR HIGH-POWER GENERATION OF DEEP-UV LIGHT . 422 13.2.1 THE SEARCH FOR CSLIB 6 O 10 (CLBO) . 422 13.2.2 GROWTH OF CLBO . 425 13.2.3 STRUCTURAL AND OPTICAL PROPERTIES OF CLBO . 426 13.2.4 DEGRADATION OF CLBO CRYSTALLINITY AND SOLUTION . 427 13.2.5 PERFORMANCE OF CLBO FOR GENERATION OF DEEP-UV LIGHT . 432 13.2.6 RELATION BETWEEN CRYSTAL QUALITY AND RESISTANCE TO BULK LASER-INDUCED DAMAGE . 433 13.3 GDYCOB CRYSTAL FOR NONCRITICAL PHASE-MATCHING (NCPM) OF VISIBLE AND UV LIGHT . 434 13.3.1 THE SEARCH FOR GD X Y 1 . X CA 4 O(BO 3 ) 3 (GDYCBO) . 434 13.3.2 NONCRITICALLY PHASE-MATCHED THG FOR ND:YAG LASERS BY GDYCOB . 436 13.3.3 NONCRITICALLY PHASE-MATCHED SHG FOR ND:YAG LASERS BY GDYCOB . 438 XX CONTENTS 13.3.4 NONCRITICALLY PHASE-MATCHED SHG FOR TI:SAPPHIRE LASERS BY GDYCOB . 439 13.3.5 OPTICAL DAMAGE OF GDYCOB AND ITS SOLUTION . 440 13.4 KAB CRYSTAL: DIFFICULTY OF GROWING BORATE CRYSTAL WITH LAYERED STRUCTURE . 443 13.4.1 THE SEARCH FOR K 2 A1 2 B 2 O 7 (KAB) . 443 13.4.2 GROWTH OF KAB .445 13.4.3 OPTICAL PROPERTIES OF KAB .447 13.5 SUMMARY AND PERSPECTIVE . 447 REFERENCES .448 14 GROWTH OF HIGH T C CRYSTALS T. INOUE, S. MIYASHITA, Y. NISHIMURA, J. TAKEMOTO, Y. SUZUKI, S. HAYASHI, AND H. KOMATSU . 453 14.1 INTRODUCTION . 453 14.2 GROWTH OF THE HIGH T C PHASE OF BSCCO . 453 14.2.1 SYNTHESIS OF THE HIGH T C PHASE BY SINTERING THE POWDER OF BI-SR-CA-CU . 454 14.2.2 PREPARATION OF SINGLE CRYSTALS CONTAINING THE HIGH T C PHASE OF A BI-SR-CA-CU-0 SUPERCONDUCTOR . 458 14.2.3 CONVERSION OF SUPERCONDUCTING BI-SYSTEM SINGLE CRYSTALS FROM 2212 TO 2223 BY THE ANNEALING METHOD . 462 14.3 LIQUID PHASE EPITAXIAL GROWTH OF LOW T C PHASE OF BSCCO . 467 14.3.1 SRTIO 3 (100) SUBSTRATE . 469 14.3.2 LAA10 3 (100) SUBSTRATE . 471 14.3.3 NDGAO 3 (001) SUBSTRATE . 472 14.4 CONSTRUCTION OF PHASE DIAGRAMS BY IN SITU OBSERVATION AND THEIR APPLICATION TO CRYSTAL GROWTH OF OXIDE SUPERCONDUCTORS . 474 14.4.1 APPARATUS .475 14.4.2 PHASE DIAGRAM OF SMBA 2 CU 3 O 7 . 8 AND ITS APPLICATION . 478 14.4.3 PHASE DIAGRAM OF BI-BASED OXIDE SUPERCONDUCTORS . 483 14.4.4 PRIMARY CRYSTALLIZATION FIELD OF BI-BASED OXIDE SUPERCONDUCTORS AND ITS APPLICATION . 491 REFERENCES . 493 15 GROWTH OF ZINC CHALCOGENIDES ROBERT TRIBOULET . 497 15.1 INTRODUCTION . 497 15.2 ZN CHALCOGENIDE GROWTH . 498 15.2.1 ZNTE . 498 15.2.2 ZNSE .502 15.2.3 ZNS .509 15.2.4 ZNO . 510 15.3 PROPERTIES AND DEFECTS OF THE CRYSTALS . 512 CONTENTS XXI 15.4 PURITY, CONTAMINATION AND DOPING . 513 15.5 APPLICATIONS AND PERSPECTIVES . 513 REFERENCES . 514 16 GROWTH OF HYDROXYAPATITE CRYSTALS ATSUO ITO AND KAZUO ONUMA . 525 16.1 INTRODUCTION . 525 16.2 CALCIUM ORTHOPHOSPHATES .526 16.3 IN VIVO CALCIFICATION OF BIOMATERIALS . 528 16.3.1 CALCIFICATION OF BIOMATERIALS USED IN CONTACT WITH BONE . 528 16.3.2 CALCIFICATION OF BIOMATERIALS USED IN CONTACT WITH BLOOD . 529 16.4 APATITE DEPOSITION ON BIOMATERIALS AS SURFACE MODIFICATION . 532 16.5 CALCIUM PHOSPHATE CEMENTS . 536 16.6 HYDROXYAPATITE CERAMICS . 537 16.7 HYDROTHERMAL GROWTH OF HYDROXYAPATITE . 538 16.8 FACTORS INFLUENCING APATITE FORMATION IN HARD TISSUES . 540 16.9 ECTOPIC CALCIFICATIONS .542 16.10 KINETICS OF HYDROXYAPATITE CRYSTAL GROWTH IN SOLUTION . 544 REFERENCES . 548 17 CRYSTAL GROWTH OF GEMSTONES SHUJI OISHI . 561 17.1 INTRODUCTION . 561 17.2 GROWTH METHODS OF GEMSTONES . 563 17.2.1 VEMEUIL METHOD .564 17.2.2 CZOCHRALSKI METHOD . 566 17.2.3 HYDROTHERMAL METHOD . 567 17.2.4 FLUX METHOD . 567 17.3 EMERALD . 569 17.3.1 GROWTH OF EMERALD CRYSTALS . 569 17.3.2 A SIMPLE METHOD OF GROWING EMERALD CRYSTALS . 570 17.4 SUMMARY . 578 REFERENCES . 579 INDEX . 581
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id	DE-604.BV016523589
illustrated	Illustrated
indexdate	2024-08-24T00:20:24Z
institution	BVB
isbn	3540003673 0815514530
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-010211543
oclc_num	48803923
open_access_boolean
owner	DE-29T DE-703 DE-384 DE-634 DE-11
owner_facet	DE-29T DE-703 DE-384 DE-634 DE-11
physical	XXI, 590 S. Ill., graph. Darst.
publishDate	2003
publishDateSearch	2003
publishDateSort	2003
publisher	Andrew Springer
record_format	marc
series2	Springer series in materials processing Physics and astronomy online library
spelling	Crystal growth technology K. Byrappa ... (Eds.) Norwich, NY Andrew 2003 Berlin [u.a.] Springer XXI, 590 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in materials processing Physics and astronomy online library Crystal growth Kristallwachstum (DE-588)4123579-4 gnd rswk-swf Kristallwachstum (DE-588)4123579-4 s DE-604 Byrappa, Kullaiah 1954- Sonstige (DE-588)124650147 oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010211543&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Crystal growth technology Crystal growth Kristallwachstum (DE-588)4123579-4 gnd
subject_GND	(DE-588)4123579-4
title	Crystal growth technology
title_auth	Crystal growth technology
title_exact_search	Crystal growth technology
title_full	Crystal growth technology K. Byrappa ... (Eds.)
title_fullStr	Crystal growth technology K. Byrappa ... (Eds.)
title_full_unstemmed	Crystal growth technology K. Byrappa ... (Eds.)
title_short	Crystal growth technology
title_sort	crystal growth technology
topic	Crystal growth Kristallwachstum (DE-588)4123579-4 gnd
topic_facet	Crystal growth Kristallwachstum
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010211543&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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