Verfügbarkeit: Technology of gallium nitride crystal growth

Technology of gallium nitride crystal growth:

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Ehrentraut, Dirk (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Heidelberg Springer 2010
Schriftenreihe:	Springer series in materials science 133
Schlagworte:	Kristallwachstum Halbleitertechnologie Galliumnitrid
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben. - Zusätzliches Online-Angebot unter www.springer.com
Beschreibung:	XXI, 326 S. Ill., graph. Darst. 24 cm
ISBN:	9783642048289

Internformat

MARC


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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PART I MARKET FOR BULK GAN CRYSTALS 1 DEVELOPMENT OF THE BULK GAN SUBSTRATE MARKET 3 ANDREW D. HANSER AND KEITH R. EVANS 1.1 INTRODUCTION 3 1.2 III-N DEVICE MARKET DRIVERS AND FORECAST 4 1.2.1 LIGHT GENERATION AND SOLID STATE LIGHTING IN THE III-NS 4 1.2.2 ELECTRICAL SYSTEMS AND POWER ELECTRONICS IN THE III-NS 5 1.2.3 POSITIONING GAN SUBSTRATES FOR SSL AND POWER ELECTRONICS MARKETS 7 1.2.4 KEY DRIVERS FOR BULK GAN SUBSTRATE COMMERCIALIZATION SUCCESS 9 1.3 BENEFITS AND IMPORTANCE OF BULK GAN SUBSTRATES 11 1.3.1 DEVICE PERFORMANCE 12 1.3.2 THERMAL CONDUCTIVITY 16 1.3.3 THERMALLY ACTIVATED DEVICE FAILURE 17 1.3.4 DEVICE COST 18 1.4 GAN DEVICE TRENDS FOR BULK GAN SUBSTRATES 19 1.4.1 LASERS AND LEDS 19 1.4.2 POWER SWITCHES 20 1.4.3 HIGH-FREQUENCY, HIGH-POWER HEMTS 21 1.5 BULK GAN SUBSTRATE TRENDS 21 1.5.1 HYDRIDE VAPOR PHASE EPITAXY 22 1.5.2 AMMONOTHERMAL GROWTH 22 1.5.3 SOLUTION GROWTH 23 1.5.4 COMBINED GROWTH TECHNIQUES 23 1.6 SUMMARY 24 REFERENCES 25 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/997432454 DIGITALISIERT DURCH IMAGE 2 XII CONTENTS PART II VAPOR PHASE GROWTH TECHNOLOGY 2 HYDRIDE VAPOR PHASE EPITAXY OF GAN 31 AKINORI KOUKITU AND YOSHINAO KUMAGAI 2.1 INTRODUCTION 31 2.2 THERMODYNAMIC ANALYSIS ON HVPE GROWTH OF GAN 32 2.2.1 CALCULATION PROCEDURE 32 2.2.2 EQUILIBRIUM PARTIAL PRESSURE AND DRIVING FORCE FOR THE GAN DEPOSITION 34 2.3 CUBIC GAN EPITAXIAL GROWTH ON (100) GAAS SUBSTRATE 37 2.3.1 EXPERIMENTAL 38 2.3.2 CUBIC GAN GROWTH 39 2.4 COMPARISON OF GAN GROWTH ON ( 111 )A AND (111)B GAAS SUBSTRATES 42 2.4.1 EXPERIMENTAL 42 2.4.2 COMPARISON OF GAN GROWTH ON ( 111)A AND (LLL)B GAAS SURFACES 43 2.5 AB INITIO CALCULATIONS OF GAN INITIAL GROWTH PROCESSES ON (LLL)A AND(LLL)B GAAS SURFACES 45 2.5.1 CALCULATION PROCEDURE 46 2.5.2 GAN INITIAL GROWTH PROCESSES ON (111)A AND ( 111)B GAAS SURFACES 46 2.6 THICK GAN GROWTH ON (111)A GAAS SUBSTRATE 49 2.6.1 EXPERIMENTAL 49 2.6.2 THICK GAN GROWTH ON (LLL)A GAAS SURFACE 50 2.7 PREPARATION OF FE-DOPED SEMI-INSULATING GAN SUBSTRATES 53 2.7.1 EXPERIMENTAL 55 2.7.2 FE-DOPED GAN LAYER GROWN ON SAPPHIRE AND GAAS 56 REFERENCES 59 3 GROWTH OF BULK GAN CRYSTALS BY HVPE ON SINGLE CRYSTALLINE GAN SEEDS 61 B. LUCZNIK, B. PASTUSZKA, G. KAMLER, I. GRZEGORY, AND S. POROWSKI 3.1 INTRODUCTION 61 3.2 EXPERIMENTAL 62 3.2.1 SEED CRYSTALS 62 3.2.2 HVPE REACTOR AND GROWTH CONDITIONS 63 3.2.3 CHARACTERIZATION 64 3.3 EXPERIMENTAL RESULTS 64 3.3.1 CRYSTALS GROWN ON SMALL NEAR DISLOCATION FREE GAN PLATELET-LIKE SEEDS 64 3.3.2 CRYSTALS GROWN ON SMALL NEAR DISLOCATION FREE GAN NEEDLE-LIKE SEEDS 69 IMAGE 3 CONTENTS XIII 3.3.3 CRYSTALS GROWN ON LARGE (0001) ORIENTED GAN SUBSTRATES 73 3.4 CONCLUSIONS 76 REFERENCES 77 4 FREESTANDING GAN WAFERS BY HYDRIDE VAPOR PHASE EPITAXY USING VOID-ASSISTED SEPARATION TECHNOLOGY 79 Y. OSHIMA, T. YOSHIDA, T. ERI, K. WATANABE, M. SHIBATA, AND T. MISHIMA 4.1 INTRODUCTION 79 4.2 OUTLINE OF THE HVPE-VAS TECHNOLOGY 80 4.2.1 CONCEPT OF THE HVPE-VAS TECHNOLOGY 80 4.2.2 OVERVIEW OF THE PROCESS 81 4.3 PREPARATION OF A GAN TEMPLATE WITH A POROUS TIN FILM 81 4.3.1 EXPERIMENTAL 81 4.3.2 RESULTS 81 4.3.3 MECHANISMS FOR THE FORMATION OF THE POROUS STRUCTURE .... 82 4.4 HVPE GROWTH ON GAN TEMPLATES WITH A POROUS TIN FILM 83 4.4.1 PROCESS OF HVPE GROWTH AND SEPARATION 84 4.4.2 MECHANISMS OF GROWTH AND SEPARATION 85 4.5 PROPERTIES OF GAN WAFERS FABRICATED BY HVPE-VAS TECHNOLOGY.. 88 4.5.1 STRUCTURAL PROPERTIES 88 4.5.2 ELECTRICAL PROPERTIES 90 4.5.3 THERMAL PROPERTIES 91 4.6 SUMMARY 94 REFERENCES 95 5 NONPOLAR AND SEMIPOLAR GAN GROWTH BY HVPE 97 PAUL T. FINI AND BENJAMIN A. HASKEIL 5.1 INTRODUCTION 97 5.2 HETEROEPITAXIAL FILMS, INCLUDING SUBSTRATE SELECTION 99 5.2.1 PLANAR A-PLANE GAN FILMS 99 5.2.2 PLANAR M-PLANE GAN FILMS 102 5.2.3 PLANAR SEMIPOLAR GAN FILMS 104 5.3 LATERAL EPITAXIAL OVERGROWTH OF NONPOLAR, SEMIPOLAR GAN 109 5.3.1 LEOOFA-PLANEGAN 109 5.3.2 LEOOFM-PLANEGAN 112 5.3.3 LEO OF SEMIPOLAR GAN 115 5.4 CONCLUSIONS AND FUTURE DEVELOPMENT 116 REFERENCES 117 IMAGE 4 XIV CONTENTS 6 HIGH GROWTH RATE MOVPE 119 K. MATSUMOTO, H. TOKUNAGA, A. UBUKATA, K. IKENAGA, Y. FUKUDA, Y. YANO, T. TABUCHI, Y. KITAMURA, S. KOSEKI, A. YAMAGUCHI, AND K. UEMATSU 6.1 INTRODUCTION 119 6.2 GROWTH CHARACTERISTICS OF ALGAN AND GAN BY CONVENTIONAL MOVPE 120 6.3 QUANTUM CHEMICAL STUDY OF VAPOR-PHASE REACTION 123 6.4 RESULT OF HIGH-GROWTH-RATE GAN BY USING A HIGH-FLOW-SPEED REACTOR 127 6.5 DISCUSSION AND SUMMARY 130 REFERENCES 1 32 PART NI SOLUTION GROWTH TECHNOLOGY 7 AMMONOTHERMAL GROWTH OF GAN UNDER AMMONO-BASIC CONDITIONS 1 37 R. DORADZINSKI, R. DWILINSKI, J. GARCZYRISKI, L.P. SIERZPUTOWSKI, AND Y. KANBARA 7.1 INTRODUCTION 137 7.2 THE GROWTH METHOD 138 7.2.1 PHYSICO-CHEMICAL BASICS 139 7.2.2 SOLUBILITY MEASUREMENTS 141 7.2.3 EQUIPMENT 142 7.2.4 SEEDED RECRYSTALLIZATION 143 7.2.5 DOPING 144 7.2.6 CRYSTAL MACHINING 144 7.3 CRYSTAL CHARACTERIZATION 146 7.3.1 STRUCTURAL PROPERTIES 146 7.3.2 OPTICAL PROPERTIES 151 7.3.3 ELECTRICAL PROPERTIES 152 7.4 HOMOEPITAXY ON AMMONOTHERMAL GAN 152 7.5 CONCLUSIONS 157 REFERENCES 158 8 A PATHWAY TOWARD BULK GROWTH OF GAN BY THE AMMONOTHERMAL METHOD 161 TADAO HASHIMOTO AND SHUJI NAKAMURA 8.1 INTRODUCTION 161 8.2 IMPACT OF MINERALIZER ON AMMONOTHERMAL SYNTHESISOFGAN 162 8.3 SOLUBILITY OF GAN IN AMMONOBASIC SOLUTIONS 165 8.4 SEEDED GROWTH OF GAN WITH METALLIC GA NUTRIENT 170 8.5 SEEDED GROWTH OF GAN WITH POLYCRYSTALLINE GAN NUTRIENT 174 8.6 GROWTH OF BULK GAN CRYSTALS AND SLICED WAFERS 177 8.7 SUMMARY 180 REFERENCES 181 IMAGE 5 CONTENTS XV 9 ACIDIC AMMONOTHERMAL GROWTH TECHNOLOGY FOR GAN 183 DIRK EHRENTRAUT AND YUJI KAGAMITANI 9.1 INTRODUCTION 183 9.2 BRIEF HISTORY OF THE AMMONOTHERMAL GROWTH TECHNIQUE OF GAN 185 9.3 GROWTH TECHNOLOGY 186 9.4 CHEMISTRY OF THE SOLUTION AND GROWTH MECHANISM 188 9.4.1 SOLUBILITY 188 9.4.2 GROWTH RATE AND CHEMISTRY OF THE SOLUTION 190 9.4.3 EFFECTOF ACIDITY ON FORMATION OF GAN 193 9.5 PROPERTIES OF AMMONOTHERMAL GAN 195 9.6 PROSPECTS AND FUTURE DEVELOPMENTS FOR AMMONOTHERMAL GAN 200 REFERENCES 202 PART IV FLUX GROWTH TECHNOLOGY 10 HIGH PRESSURE SOLUTION GROWTH OF GALLIUM NITRIDE 207 MICHAL BOCKOWSKI, PAWEL STRAJC, IZABELLA GRZEGORY, AND SYLWESTER POROWSKI 10.1 INTRODUCTION 207 10.2 GROWTH METHOD 209 10.2.1 THERMODYNAMIC AND KINETIC ASPECTS OF HPS GROWTH 210 10.2.2 EXPERIMENTAL 211 10.3 SPONTANEOUS CRYSTALUEZATION BY HPS GROWTH METHOD 214 10.3.1 HABIT AND MORPHOLOGYOF THE CRYSTALS 214 10.3.2 PHYSICAL PROPERTIES OF THE CRYSTALS 215 10.4 SEEDED GROWTH BY HPS METHOD 216 10.4.1 LIQUID PHASE EPITAXY IN THE C-DIRECTION ON VARIOUS SUBSTRATES 217 10.4.2 MODELING OF THE CONVECTIVE TRANSPORT IN GALLIUM FOR LPE GROWTH (TIME INDEPENDENT SOLUTIONS) 219 10.4.3 SEEDED GROWTH WITH CONVECTIVE FLOW OF GALLIUM UNDER CONTROL 222 10.4.4 GROWTH ON HVPE SEEDS IN THE C-DIRECTIONS 224 10.4.5 GROWTH ON HVPE SEEDS IN NONPOLAR DIRECTIONS 227 10.4.6 MODELING OF THE CONVECTIVE TRANSPORT IN GALLIUM (TIME DEPENDENT SOLUTIONS) 227 10.5 APPLICATIONS OF PRESSURE GROWN GAN SUBSTRATES: BLUE LASER DIODES IN TOPGAN LTD 230 10.6 SUMMARY AND PERSPECTIVES OF HPS GROWTH METHOD 232 REFERENCES 233 IMAGE 6 XVI CONTENTS 11 A BRIEF REVIEW ON THE NA-FLUX METHOD TOWARD GROWTH OF LARGE-SIZE GAN CRYSTAL 235 DIRK EHRENTRAUT AND ELKE MEISSNER 11.1 INTRODUCTION 235 11.2 HISTORICAL DEVELOPMENT IN BRIEF 235 11.3 EXPERIMENTAL CONDITIONS FOR THE LPE GROWTH OF GAN BY THE NA-FLUX METHOD 238 11.4 GROWTH MECHANISM AND DISLOCATIONS 239 1 1.4.1 EFFECT OF FLUX COMPOSITION ON GROWTH STABILITY AND CRYSTAL MORPHOLOGY 239 11.4.2 GROWTH MECHANISM AND EFFECT ON DISLOCATION POPULATION 240 11.4.3 SOLUBILITY AND GROWTH RATE 241 11.5 PROPERTIES OF GAN 242 11.6 INDUSTRIALIZATION POTENTIAL FOR THE NA-FLUX METHOD 243 REFERENCES 243 12 LOW PRESSURE SOLUTION GROWTH OF GALLIUM NITRIDE 245 E. MEISSNER, S. HUSSY, AND J. FRIEDRICH 12.1 INTRODUCTION 245 12.2 TECHNOLOGY OF SOLUTION GROWTH UNDER AMBIENT PRESSURE, THE LPSG METHOD 247 12.2.1 THE FORMATION REACTION OF GAN UNDER AMMONIA ATMOSPHERE 248 12.2.2 SOLUBILITY OF NITROGEN IN GALLIUM-METAL SOLUTIONS 251 12.2.3 GROWTH SETUP, PROCESS, AND BASIC CHALLENGES 254 12.2.4 THE INFLUENCE OF PROCESS PARAMETERS ON THE EPITAXIAL AND PARASITIC GROWTH OF GAN 256 12.3 EVOLUTION OF STRUCTURE AND MORPHOLOGY OF THE GAN LAYERS .261 12.3.1 IMPORTANCE OF THE INITIAL GROWTH STAGE 261 12.3.2 MACROSCOPIC DEFECTS IN LPSG GAN 263 12.4 PROPERTIES OF THE LPSG GAN MATERIAL 265 12.4.1 STRUCTURAL PROPERTIES AND DISLOCATION DENSITY IN LPSG GAN MATERIAL 265 12.4.2 ELECTRICAL PROPERTIES 270 12.4.3 IMPURITIES 270 12.5 SUMMARY AND PROSPECT 271 REFERENCES 272 PART V CHARACTERIZATION OF GAN CRYSTALS 13 OPTICAL PROPERTIES OF GAN SUBSTRATES 277 SHIGEFUSA F. CHICHIBU 13.1 INTRODUCTION 277 IMAGE 7 CONTENTS XVII 13.2 OPTICAL PROPERTIES OF GAN SUBSTRATES GROWN BY METALORGANIC VAPOR PHASE EPITAXY AND HALIDE VAPOR PHASE EPITAXY 279 13.2.1 PHOTOREFLECTANCE SPECTRA OF EXCITONIC POLARITONS IN MOVPE-LEO GAN SUBSTRATE 279 13.2.2 TRPLOF MOVPE-LEO GAN SUBSTRATE 283 13.2.3 LOW TEMPERATURE PL SPECTRA OF HVPE-LEO GAN SUBSTRATE 285 13.3 EFFECTS OF GROWTH POLAR DIRECTION ON THE OPTICAL PROPERTIES OF SEEDED GAN SUBSTRATES GROWN BY AMMONOTHERMAL METHOD 286 13.4 EFFECTS OF DISLOCATION BENDING ON THE OPTICAL PROPERTIES OF SEEDED GAN SUBSTRATES GROWN BY AMMONOTHERMAL METHOD 288 13.5 SUMMARY 290 REFERENCES 29 1 14 POINT DEFECTS AND IMPURITIES IN BULK GAN STUDIED BY POSITRON ANNIHILATION SPECTROSCOPY 295 FILIP TUOMISTO 14.1 INTRODUCTION 295 14.2 POSITRON ANNIHILATION SPECTROSCOPY 296 14.2.1 POSITRONS IN SOLIDS 296 14.2.2 POSITRONS AT DEFECTS 298 14.2.3 EXPERIMENTAL TECHNIQUES 301 14.3 IN-GROWN DEFECTS 304 14.3.1 DEFECT FORMATION: GROWTH METHODS AND DOPING 304 14.3.2 DEFECTS AND GROWTH POLARITY 307 14.4 DEFECT ENGINEERING 309 14.4.1 HIGH PRESSURE THERMAL ANNEALING 310 14.4.2 ELECTRON IRRADIATION EXPERIMENTS 311 14.5 SUMMARY 314 REFERENCES 314 INDEX 317
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series	Springer series in materials science
series2	Springer series in materials science
spelling	Technology of gallium nitride crystal growth Dirk Ehrentraut ... ed. Berlin ; Heidelberg Springer 2010 XXI, 326 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Springer series in materials science 133 Literaturangaben. - Zusätzliches Online-Angebot unter www.springer.com Kristallwachstum (DE-588)4123579-4 gnd rswk-swf Halbleitertechnologie (DE-588)4158814-9 gnd rswk-swf Galliumnitrid (DE-588)4375592-6 gnd rswk-swf Galliumnitrid (DE-588)4375592-6 s Kristallwachstum (DE-588)4123579-4 s Halbleitertechnologie (DE-588)4158814-9 s DE-604 Ehrentraut, Dirk edt Meissner, Elke Sonstige oth Erscheint auch als Online-Ausgabe 978-3-642-04830-2 Springer series in materials science 133 (DE-604)BV000683335 133 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020513188&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Technology of gallium nitride crystal growth Springer series in materials science Kristallwachstum (DE-588)4123579-4 gnd Halbleitertechnologie (DE-588)4158814-9 gnd Galliumnitrid (DE-588)4375592-6 gnd
subject_GND	(DE-588)4123579-4 (DE-588)4158814-9 (DE-588)4375592-6
title	Technology of gallium nitride crystal growth
title_auth	Technology of gallium nitride crystal growth
title_exact_search	Technology of gallium nitride crystal growth
title_full	Technology of gallium nitride crystal growth Dirk Ehrentraut ... ed.
title_fullStr	Technology of gallium nitride crystal growth Dirk Ehrentraut ... ed.
title_full_unstemmed	Technology of gallium nitride crystal growth Dirk Ehrentraut ... ed.
title_short	Technology of gallium nitride crystal growth
title_sort	technology of gallium nitride crystal growth
topic	Kristallwachstum (DE-588)4123579-4 gnd Halbleitertechnologie (DE-588)4158814-9 gnd Galliumnitrid (DE-588)4375592-6 gnd
topic_facet	Kristallwachstum Halbleitertechnologie Galliumnitrid
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020513188&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000683335
work_keys_str_mv	AT ehrentrautdirk technologyofgalliumnitridecrystalgrowth AT meissnerelke technologyofgalliumnitridecrystalgrowth

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