Verfügbarkeit: Fiber crystal growth from the melt

Fiber crystal growth from the melt:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2004
Schriftenreihe:	Advances in materials research 6
Schlagworte:	Crystal growth Crystal whiskers
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index.
Beschreibung:	XVII, 281 S. Ill., graph. Darst.
ISBN:	3540405968

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MARC


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245	1	0	\|a Fiber crystal growth from the melt \|c T. Fukuda ... (eds.)
264		1	\|a Berlin [u.a.] \|b Springer \|c 2004
300			\|a XVII, 281 S. \|b Ill., graph. Darst.
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490	1		\|a Advances in materials research \|v 6
500			\|a Includes bibliographical references and index.
650		4	\|a Crystal growth
650		4	\|a Crystal whiskers
700	1		\|a Fukuda, T. \|e Sonstige \|4 oth
700	1		\|a Rudolph, Peter \|e Sonstige \|4 oth
700	1		\|a Uda, Satoshi \|e Sonstige \|4 oth
830		0	\|a Advances in materials research \|v 6 \|w (DE-604)BV012271346 \|9 6
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Datensatz im Suchindex

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adam_text	CONTENTS 1 WHAT DO WE WANT WITH FIBER CRYSTALS? AN INTRODUCTORY OVERVIEW..........1 PETER RUDOLPH...................................................................................................1 1.1 INTRODUCTION.........................................................................................1 1.2 METHODS ..............................................................................................3 1.2.1 MICRO FLOATING ZONE METHODS.......................................................5 1.2.2 PULLING TECHNIQUES FROM A DIE......................................................7 1.3 SELECTED FUNDAMENTALS.......................................................................11 1.3.1 CONSERVATION OF MASS .................................................................12 1.3.2 BALANCE OF HEAT TRANSFER ............................................................12 1.3.3 CAPILLARY STABILITY.......................................................................13 1.3.4 SEGREGATION AND AXIAL COMPONENT DISTRIBUTION...........................15 1.4 FIBER MATERIALS AND THEIR APPLICATIONS................................................16 1.4.1 OXIDES........................................................................................16 1.4.2 EUTECTICS.....................................................................................33 1.4.3 SEMICONDUCTORS..........................................................................36 1.4.4 METALS ........................................................................................38 1.5 CONCLUSIONS AND OUTLOOKS..................................................................38 REFERENCES...............................................................................................40 2 FUNDAMENTALS OF GROWTH DYNAMICS OF THE -PULLING DOWN METHOD ..........47 SATOSHI UDA ....................................................................................................47 2.1 CONSERVATION OF MASS AND HEAT AND MENISCUS STABILITY OF THE MOLTEN ZONE ........................................47 2.2 SOLUTE TRANSPORT IN MELT AND SOLID DURING GROWTH VIA THE -PULLING DOWN METHOD .........................................................50 2.2.1 ANALYTICAL APPROACH...................................................................50 2.2.2 EXAMPLE OF FIBER CRYSTAL GROWTH................................................58 2.2.3 EFFECT OF FLOW IN THE MOLTEN ZONE ..............................................61 2.3 INFLUENCE OF THE INTERFACE ELECTRIC FIELD ON SOLUTE PARTITIONING............63 2.3.1 INTERFACE ELECTRIC FIELD................................................................63 2.3.2 EXPERIMENTAL SETUP ....................................................................65 2.3.3 EXPERIMENTAL RESULTS..................................................................66 2.3.4 ANALYTICAL...................................................................................68 2.4 SOLUTE REDISTRIBUTION BY AN INTERFACE ELECTRIC FIELD DURING FIBER CRYSTAL GROWTH ..............................................................75 2.4.1 INTERFACE ELECTRIC FIELD ALONG THE RADIAL DIRECTION.......................75 2.4.2 EXPERIMENTAL PROCEDURE..............................................................75 2.4.3 ANALYTICAL INVESTIGATION..............................................................79 2.4.4 INFLUENCE OF THE INVERTED TEMPERATURE GRADIENT ON THE RADIAL ELECTRIC FIELD.........................................................83 APPENDIX ................................................................................................85 SOLUTION FOR THE PARTIAL DIFFERENTIAL EQUATION, (2.37)..............................85 REFERENCES...............................................................................................87 X CONTENTS 3 THEORETICAL ANALYSIS OF THE MICRO-PULLING-DOWN PROCESS ........................... 89 C.W. LAN........................................................................................................ 89 3.1 INTRODUCTION....................................................................................... 89 3.2 MODEL AND SOLUTION SCHEME............................................................... 90 3.3 RESULTS AND DISCUSSION ...................................................................... 94 3.3.1 MENISCUS SHAPE AND GROWN FIBER SIZE ....................................... 94 3.3.2 EFFECT OF CONVECTION................................................................... 96 3.3.3 EFFECT OF PULLING RATE ................................................................. 97 3.3.4 EFFECT OF DIE TEMPERATURE .......................................................... 98 3.3.5 EFFECT OF MELT HEIGHT.................................................................. 99 3.4 CONCLUSION ...................................................................................... 100 REFERENCES ............................................................................................ 100 4 PRACTICE OF MICRO PULLING DOWN GROWTH ................................................... 103 BORIS M. EPELBAUM....................................................................................... 103 4.1 GROWTH OF HOMOGENEOUS FIBERS....................................................... 103 4.1.1 EXPERIMENTAL OBSERVATIONS....................................................... 104 4.1.2 CONDITIONS FOR GROWTH OF AXIALLY HOMOGENEOUS FIBERS ............ 104 4.2 FACETING OF µ -PD FIBERS AND IMPROVEMENT OF SURFACE QUALITY........... 108 4.2.1 EXPERIMENTAL OBSERVATIONS....................................................... 109 4.2.2 DISCUSSION ON FIBER FACETING .................................................... 109 4.3 CRYSTAL GROWTH STUDIES WITH THE MICRO PULLING DOWN METHOD.......... 114 4.3.1 TERBIUM ALUMINUM GARNET * PHASE DIAGRAM AND CRYSTAL GROWTH .................................................................. 114 4.3.2 LEAD TUNGSTATE * PROBLEM OF INCONGRUENT MELT VAPORIZATION DURING GROWTH ......................................................................... 118 4.3.3 LEAD TUNGSTATE * SEARCH FOR PREFERENTIAL GROWTH DIRECTION........ 123 REFERENCES ............................................................................................ 126 5 CRYSTAL-CHEMISTRY AND FIBER CRYSTAL GROWTH OF OPTICAL OXIDE MATERIALS ........................................................................ 129 VALERY I. CHANI ............................................................................................. 129 5.1 INTRODUCTION..................................................................................... 129 5.2 APPARATUS AND PROCEDURES................................................................ 130 5.2.1 -PD SYSTEMS WITH RESISTIVE HEATING ....................................... 131 5.2.2 -PD SYSTEMS WITH RF HEATING................................................. 133 5.2.3 WETTING PROPERTIES OF THE MELT .................................................. 135 5.2.4 SEEDING AND SEPARATION OF THE GROWN CRYSTAL............................ 136 5.3 Y 3AL 5O 12 (YAG) GARNET.................................................................... 137 5.3.1 GROWTH OF YAG:ND CRYSTALS..................................................... 137 5.3.2 PROPERTIES OF YAG:ND CRYSTALS................................................. 138 5.3.3 SPATIAL DISTRIBUTION OF ND 3+ IN YAG:ND CRYSTALS....................... 139 5.3.4 GROWTH OF YAG:YB CRYSTALS..................................................... 141 5.4 TB 3GA 5O 12 (TGG) GARNETS ................................................................ 144 5.4.1 TB 3GA 5O 12 FIBER CRYSTAL GROWTH................................................ 144 5.4.2 TB 3GA 5O 12 FIBER CHARACTERIZATION .............................................. 146 5.4.3 TB 3GA 5O 12 BULK CRYSTAL GROWTH................................................. 148 CONTENTS XI 5.5 TB 3AL 5O 12 (TAG) BASED MIXED GARNETS ............................................ 149 5.5.1 CRYSTAL CHEMISTRY OF MIXED GARNETS ......................................... 150 5.5.2 (TB,LU) 3AL 5O 12 (TLAG) FIBER CRYSTALS ...................................... 153 5.5.3 (TB,YB) 3AL 5O 12 (TYAG) FIBER CRYSTALS...................................... 157 5.6 KNBO 3 (KN) BASED PEROVSKITE CRYSTALS ........................................... 163 5.6.1 KNBO 3 FIBER CRYSTALS ............................................................... 164 5.6.2 FLUX GROWTH OF KNBO 3 FIBER CRYSTALS....................................... 168 5.6.3 GROWTH OF TA- AND LI-DOPED KNBO 3 FIBER CRYSTALS .................. 169 5.7 * -GA 2O 3 FIBER CRYSTALS..................................................................... 171 5.8 OTHER MATERIALS................................................................................ 173 5.8.1 CA 3(LI,NB,GA) 5O 12 (CLNGG) GARNET CRYSTALS............................ 174 5.8.2 VANADIUM GARNET CRYSTALS........................................................ 178 5.8.3 RARE-EARTH VANADATES ............................................................... 179 5.9 SUMMARY......................................................................................... 180 REFERENCES............................................................................................. 181 6 OXIDE EUTECTIC CRYSTALS FOR HIGH-TEMPERATURE STRUCTURAL APPLICATION... 185 AKIRA YOSHIKAWA .......................................................................................... 185 6.1 INTRODUCTION..................................................................................... 185 6.2 GROWTH APPARATUS AND GROWTH PROCEDURES....................................... 188 6.2.1 STARTING MATERIALS AND COMPOSITIONS......................................... 188 6.2.2 FIBER GROWTH ASSEMBLY AND PROCEDURE ..................................... 188 6.2.3 EVALUATION TECHNIQUES.............................................................. 190 6.3 OXIDE EUTECTIC CRYSTAL GROWTH, MORPHOLOGICAL AND STRUCTURAL PROPERTIES.................................................................. 191 6.3.1 YAG/AL 2O 3 EUTECTIC ................................................................. 191 6.3.2 RARE EARTH PARA-ALUMINATE (GARNET)/AL 2O 3 EUTECTIC AND RARE EARTH ORTHO-ALUMINATE (PEROVSKITE)/AL 2O 3 EUTECTIC ..... 199 6.3.3 ZRO 2/AL 2O 3 EUTECTIC .................................................................. 204 6.3.4 Y 2O 3 STABILIZED ZRO 2/AL 2O 3 EUTECTIC.......................................... 208 REFERENCES............................................................................................. 216 7 OXIDE FIBER CRYSTALS GROWN BY *-PD AND LHPG TECHNIQUES ................. 219 KHEIRREDDINE LEBBOU AND GEORGES BOULON .................................................... 219 7.1 INTRODUCTION..................................................................................... 219 7.2 SINGLE CRYSTAL ELABORATION BY FLOATING ZONE TECHNIQUE USING A LASER SOURCE AS HEATER........................................................ 220 7.2.1 THE PRINCIPLE OF ZONE MELTING .................................................. 220 7.2.2 SPECIES DISTRIBUTION AND PFANN RELATION.................................... 220 7.2.3 LHPG (LASER HEATED PEDESTAL GROWTH) TECHNIQUE.................... 223 7.3 PULLING TECHNIQUE FROM A MENISCUS USING THE MICROPULLING DOWN TECHNIQUE ( µ -PD)............................. 227 7.4 ILLUSTRATION OF THE FIBER CRYSTAL GROWTH POTENTIAL.............................. 230 7.4.1 NONLINEAR NIOBATE FIBER CRYSTALS LINBO3................................. 230 7.4.2 BA 2NANB 5O 15 (BNN) ................................................................. 231 7.4.3 SR XBA 1-XNB 2O 6 (SBN).................................................................. 235 7.4.4 LASER FIBER CRYSTALS : YB 3+ -DOPED CA 8LA 2(PO 4) 6O 2 OXYAPATITE..... 238 XII CONTENTS 7.4.5 SUPERCONDUCTORS : BI2212......................................................... 238 7.4.6 REFRACTORY SESQUIOXIDE FIBER CRYSTALS GROWN BY THE LHPG TECHNIQUE AND PROPOSITION OF A NEW COMBINATORIAL CHEMISTRY APPROACH ........................... 240 7.4.7 EXAMPLE OF APPLICATION OF THE GROWTH OF RARE EARTH-DOPED CONCENTRATION GRADIENT CRYSTAL FIBERS: ANALYSIS OF DYNAMICAL PROCESSES OF LASER RESONANT TRANSITIONS IN YB 3+ -DOPED Y 2O 3..................... 243 7.4.8 FLUORIDE CRYSTAL GROWTH (CAF 2) ................................................ 248 7.5 CONCLUSION ...................................................................................... 250 REFERENCES ............................................................................................ 251 8 GROWTH OF MICRO AND BULK CRYSTALS BY MODIFIED MICRO-PD AND THEIR PROPERTIES ................................................................................... 255 TSUGUO FUKUDA ............................................................................................. 255 8.1 THIN FIBER GROWTH........................................................................... 255 8.1.1 MODIFICATION OF METAL CRUCIBLES FOR OXIDE GROWTH. .................. 255 8.1.2 ADJUSTMENT OF GRAPHITE CRUCIBLES FOR THIN SILICON FIBER GROWTH................................................... 261 8.1.3 IN-SITU GROWTH OF CORE-CLAD FIBER STRUCTURES............................ 267 8.1.4 DOUBLE-DIE MODIFICATION OF THE MICRO PULLING DOWN METHOD.... 268 8.1.5 SELF-CLADDED EUTECTIC FIBERS..................................................... 276 8.2 BULK CRYSTAL GROWTH........................................................................ 278 REFERENCES ............................................................................................ 280
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spelling	Fiber crystal growth from the melt T. Fukuda ... (eds.) Berlin [u.a.] Springer 2004 XVII, 281 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advances in materials research 6 Includes bibliographical references and index. Crystal growth Crystal whiskers Fukuda, T. Sonstige oth Rudolph, Peter Sonstige oth Uda, Satoshi Sonstige oth Advances in materials research 6 (DE-604)BV012271346 6 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010522728&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Fiber crystal growth from the melt Advances in materials research Crystal growth Crystal whiskers
title	Fiber crystal growth from the melt
title_auth	Fiber crystal growth from the melt
title_exact_search	Fiber crystal growth from the melt
title_full	Fiber crystal growth from the melt T. Fukuda ... (eds.)
title_fullStr	Fiber crystal growth from the melt T. Fukuda ... (eds.)
title_full_unstemmed	Fiber crystal growth from the melt T. Fukuda ... (eds.)
title_short	Fiber crystal growth from the melt
title_sort	fiber crystal growth from the melt
topic	Crystal growth Crystal whiskers
topic_facet	Crystal growth Crystal whiskers
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010522728&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV012271346
work_keys_str_mv	AT fukudat fibercrystalgrowthfromthemelt AT rudolphpeter fibercrystalgrowthfromthemelt AT udasatoshi fibercrystalgrowthfromthemelt

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