Advanced search
Publication Cover
The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 34, 1976 - Issue 4
Journal homepage
134
Views
149
CrossRef citations to date
0
Altmetric
Original Articles

Oxygen precipitation and the generation of dislocations in silicon

T. Y. Tan IBM System Products Division, Essex Junction, Vermont, 05452, U.S.A.
&
W. K. Tice IBM System Products Division, Essex Junction, Vermont, 05452, U.S.A.
Pages 615-631 | Received 02 Feb 1976, Published online: 20 Aug 2006

Citations (149)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (7)

B.J. Gally & A.S. Argon. (2001) Brittle-to-ductile transitions in the fracture of silicon single crystals by dynamic crack arrest. Philosophical Magazine A 81:3, pages 699-740.
Read now
A.J. Holland & B.K. Tanner. (1996) Simulation of decorated dislocation images in X-ray section topographs. Philosophical Magazine A 73:5, pages 1451-1474.
Read now
H. Alexander. (1989) On dislocation generation in semiconductor crystals. Radiation Effects and Defects in Solids 111-112:1-2, pages 1-12.
Read now
X. Baillin, J. Pelissier, J.J. Bacmann, A. Jacques & A. George. (1987) Dislocation transmission through ∑ = 9 symmetrical tilt boundaries in silicon and germanium. Philosophical Magazine A 55:2, pages 143-164.
Read now
J. Jung. (1985) High-pressure-induced defect formation in silicon single crystals II. Mechanism of stress-field formation at precipitates. Philosophical Magazine A 50:2, pages 257-274.
Read now
J. Narayan & Y. Chen. (1984) Physical properties of oxides containing metal precipitates. Philosophical Magazine A 49:4, pages 475-492.
Read now
G.R. Woolhouse. (1977) Inclusion-generated dislocation clusters in liquid phase epitaxy. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 36:3, pages 597-607.
Read now

Articles from other publishers (142)

Shenyou Peng, Zhili Wang, Jia Li, Qihong Fang & Yujie Wei. (2023) Beyond Orowan hardening: Mapping the four distinct mechanisms associated with dislocation-precipitate interaction. International Journal of Plasticity 169, pages 103710.
Crossref
She Yuting & Li Hongxing. (2022) A deep learning based dislocation detection method for cylindrical silicon growth process. Applied Intelligence 53:8, pages 9188-9203.
Crossref
Osamu Ueda & Shigetaka Tomiya. 2021. Reliability of Semiconductor Lasers and Optoelectronic Devices. Reliability of Semiconductor Lasers and Optoelectronic Devices 177 238 .
Shenyou PengYujie Wei & Huajian Gao. (2020) Nanoscale precipitates as sustainable dislocation sources for enhanced ductility and high strength. Proceedings of the National Academy of Sciences 117:10, pages 5204-5209.
Crossref
Jun Fujise, Bonggyun Ko, Toshiaki Ono & Masaki Tanaka. (2020) The Critical Shear Stress for Slip Generation due to Scratches in Silicon Wafers. ECS Journal of Solid State Science and Technology 9:5, pages 055012.
Crossref
Jiyang Li, Lihui Song, Xuegong Yu & Deren Yang. (2018) Effects of Iron Contamination and Hydrogen Passivation on the Electrical Properties of Oxygen Precipitates in CZ-Si. Journal of Electronic Materials 47:9, pages 5039-5044.
Crossref
Jun Fujise, Bonggyun Ko, Toshiaki Ono & Masaki Tanaka. (2018) Measurement and empirical equation of critical stresses for slip generation from oxide precipitates in silicon wafers. Japanese Journal of Applied Physics 57:3, pages 035501.
Crossref
Kazuhisa Torigoe & Toshiaki Ono. (2017) Enhanced diffusion of boron by oxygen precipitation in heavily boron-doped silicon. Journal of Applied Physics 121:21.
Crossref
E.M. Trukhanov, K.B. Fritzler, A.P. Vasilenko, A.V. Kolesnikov, P.V. Kasimkin & V.A. Moskovskih. (2017) Dislocation structure of Ge crystals grown by low thermal gradient Czochralski technique. Journal of Crystal Growth 468, pages 457-461.
Crossref
Antoine Autruffe, Maulid Kivambe, Lars Arnberg & Marisa Di Sabatino. (2015) The impact of oxygen precipitation on dislocation generation at small angle grain boundaries during seed‐assisted directional solidification of silicon. physica status solidi (a) 213:1, pages 122-126.
Crossref
S. Mahajan. (2015) The role of materials science in the evolution of microelectronics. MRS Bulletin 40:12, pages 1079-1088.
Crossref
Pierre-Antoine Geslin, Benoît Appolaire & Alphonse Finel. (2014) Investigation of coherency loss by prismatic punching with a nonlinear elastic model. Acta Materialia 71, pages 80-88.
Crossref
Pavel S. Shushpannikov, Robert V. Goldstein & Konstantin Ustinov. (2011) The Mechanical Modeling of Oxygen-Containing Precipitates in Silicon Wafers on Different Stages of the Getter Formation Process. Solid State Phenomena 178-179, pages 483-488.
Crossref
R. V. Goldstein, M. V. Mezhennyi, M. G. Mil’vidskii, V. Ya. Reznik, K. B. Ustinov & P. S. Shushpannikov. (2011) Experimental and theoretical investigation of formation of the oxygen-containing precipitate-dislocation loop system in silicon. Physics of the Solid State 53:3, pages 527-538.
Crossref
Masaki Tanaka, Grace S. Liu, Tomonobu Kishida, Kenji Higashida & Ian M. Robertson. (2011) Transition from a punched-out dislocation to a slip dislocation revealed by electron tomography. Journal of Materials Research 25:12, pages 2292-2296.
Crossref
Zhidan Zeng, Xiangyang Ma, Jiahe Chen, Deren Yang, Ingmar Ratschinski, Frank Hevroth & Hartmut S. Leipner. (2010) Effect of oxygen precipitates on dislocation motion in Czochralski silicon. Journal of Crystal Growth 312:2, pages 169-173.
Crossref
Eero Haimi. 2010. Handbook of Silicon Based MEMS Materials and Technologies. Handbook of Silicon Based MEMS Materials and Technologies 59 69 .
V. B. Molodkin, S. I. Olikhovskii, E. N. Kislovskii, T. P. Vladimirova, E. S. Skakunova, R. F. Seredenko & B. V. Sheludchenko. (2008) Dynamical theoretical model of the high-resolution double-crystal x-ray diffractometry of imperfect single crystals with microdefects. Physical Review B 78:22.
Crossref
T Tsuru & Y Shibutani. (2007) Initial yield process around a spherical inclusion in single-crystalline aluminium. Journal of Physics D: Applied Physics 40:7, pages 2183-2188.
Crossref
S. J. Olikhovsky, M. M. Belova & Ye. V. Kochelab. (2006) Kinetics of Formation and Growth of Microdefects in Crystals. Uspehi Fiziki Metallov 7:3, pages 135-171.
Crossref
Jiahe Chen, Deren Yang, Hong Li, Xiangyang Ma & Duanlin Que. (2006) Enhancement effect of germanium on oxygen precipitation in Czochralski silicon. Journal of Applied Physics 99:7.
Crossref
Ulrich Gösele. (2006) How clean is too clean?. Nature 440:7080, pages 34-35.
Crossref
Franz Dieter Fischer, Thomas Schaden, Fritz Appel & Helmut Clemens. (2006) Continuum Mechanics of Deformation Twinning – A Review. Multidiscipline Modeling in Materials and Structures 2:2, pages 167-187.
Crossref
Ulrich Gösele. (2006) Nanotechnology: How clean is too clean?. Nature, pages 1-2.
Crossref
Hong Li, Deren Yang, Xiangyang Ma, Xuegong Yu & Duanlin Que. (2004) Germanium effect on oxygen precipitation in Czochralski silicon. Journal of Applied Physics 96:8, pages 4161-4165.
Crossref
Armando Giannattasio, Semih Senkader, Robert J. Falster & Peter R. Wilshaw. (2004) The role of prismatic dislocation loops in the generation of glide dislocations in Cz-silicon. Computational Materials Science 30:1-2, pages 131-136.
Crossref
Peter PichlerPeter Pichler. 2004. Intrinsic Point Defects, Impurities, and Their Diffusion in Silicon. Intrinsic Point Defects, Impurities, and Their Diffusion in Silicon 77 227 .
T. Tsuru & Y. Shibutani. 2004. IUTAM Symposium on Mesoscopic Dynamics of Fracture Process and Materials Strength. IUTAM Symposium on Mesoscopic Dynamics of Fracture Process and Materials Strength 213 222 .
Y.X. Li, H.Y. Guo, B.D. Liu, T.J. Liu, Q.Y. Hao, C.C. Liu, D.R. Yang & D.L. Que. (2003) The effects of neutron irradiation on the oxygen precipitation in Czochralski-silicon. Journal of Crystal Growth 253:1-4, pages 6-9.
Crossref
Aleksei R. Chelyadinskii & Fadei F. Komarov. (2003) Defect-impurity engineering in implanted silicon. Uspekhi Fizicheskih Nauk 173:8, pages 813.
Crossref
A Giannattasio, S Senkader, R J Falster & P R Wilshaw. (2002) Generation of dislocation glide loops in Czochralski silicon. Journal of Physics: Condensed Matter 14:48, pages 12981-12987.
Crossref
V I Talanin, I E Talanin & D I Levinson. (2002) Physics of the formation of microdefects in dislocation-free monocrystals of float-zone silicon. Semiconductor Science and Technology 17:2, pages 104-113.
Crossref
Shuhan Lin, Iris Mack, Noom Pongkrapan & P. Fraundorf . (2002) Ten Nanometer Surface Intrusions in Room-Temperature Silicon. Electrochemical and Solid-State Letters 5:9, pages G83.
Crossref
Seiichi Isomae, Hidetsugu Ishida, Toshihiko Itoga & Kazuyuki Hozawa. (2002) Intrinsic Gettering of Copper in Silicon Wafers. Journal of The Electrochemical Society 149:6, pages G343.
Crossref
. 2002. Impurities and Defects in Group IV Elements, IV-IV and III-V Compounds. Part a: Group IV Elements. Impurities and Defects in Group IV Elements, IV-IV and III-V Compounds. Part a: Group IV Elements 1 38 .
. 2002. Impurities and Defects in Group IV Elements, IV-IV and III-V Compounds. Part a: Group IV Elements. Impurities and Defects in Group IV Elements, IV-IV and III-V Compounds. Part a: Group IV Elements 1 4 .
Yuren Wang & Koichi Kakimoto. (2001) Heating rate dependence of melting of silicon: An in situ x-ray topography study . Journal of Applied Physics 90:5, pages 2247-2251.
Crossref
E. Oliviero, M. F. Beaufort & J. F. Barbot. (2001) Dislocations induced by bubble formation in high energy He implantation in silicon. Journal of Applied Physics 89:10, pages 5332-5338.
Crossref
T.Y. Tan. 2001. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 4031 4041 .
Werner Zulehner. (2000) Historical overview of silicon crystal pulling development. Materials Science and Engineering: B 73:1-3, pages 7-15.
Crossref
Bong Gyun Ko & Kae Dal Kwack. (1999) Growth/dissolution model for oxygen precipitation based on the kinetics of phase transformations. Journal of Applied Physics 85:4, pages 2100-2107.
Crossref
C. Y. Kung, C. M. Liu, W. Hsu & R. H. Horng. (1998) The variation of microstructure in Czochralski silicon induced by low-high two step anneal. Journal of Applied Physics 83:1, pages 56-59.
Crossref
V. V. Afanas’ev, A. Stesmans, A. G. Revesz & H. L. Hughes. (1997) Structural inhomogeneity and silicon enrichment of buried SiO2 layers formed by oxygen ion implantation in silicon. Journal of Applied Physics 82:5, pages 2184-2199.
Crossref
Guenther Obermeier, Juergen Hage & Diethard Huber. (1997) Oxygen precipitation and denuded zone characterization with the electrolytical metal tracer technique. Journal of Applied Physics 82:2, pages 595-600.
Crossref
B. Shen, X. Y. Zhang, K. Yang, P. Chen, R. Zhang, Y. Shi, Y. D. Zheng, T. Sekiguchi & K. Sumino. (1997) Gettering of Fe impurities by bulk stacking faults in Czochralski-grown silicon. Applied Physics Letters 70:14, pages 1876-1878.
Crossref
B. Shen, T. Sekiguchi, P. Chen, K. Yang, Z. Z. Chen, Y. D. Zheng & K. Sumino. (2011) Ebic Study of Fe Precipitation on Bulk Stacking Fault in Czochralski-Grown Silicon. MRS Proceedings 469.
Crossref
Ichiro Yonenaga & Koji Sumino. (1996) Influence of oxygen precipitation along dislocations on the strength of silicon crystals. Journal of Applied Physics 80:2, pages 734-738.
Crossref
B. Shen, T. Sekiguchi, R. Zhang, Y. Shi, Y. D. Zheng & K. Sumino. (1996) Precipitation of Cu, Ni, and Fe on Frank-Type Partial Dislocations in Czochralski-Grown Silicon. Physica Status Solidi (a) 155:2, pages 321-332.
Crossref
Bo Shen, Rong Zhang, Yi Shi, You-dou Zheng, T Sekiguchi & K Sumino. (1996) Precipitation of Cu and Ni on Frank-Type Partial Dislocations in Czochralski-Grown Silicon. Chinese Physics Letters 13:4, pages 289-292.
Crossref
G. Kissinger, J. Vanhellemont, E. Simoen, C. Claeys & H. Richter. 1996. C,H,N and O in Si and Characterization and Simulation of Materials and Processes. C,H,N and O in Si and Characterization and Simulation of Materials and Processes 225 229 .
G. Kissinger, J. Vanhellemont, E. Simoen, C. Claeys & H. Richter. (1996) Investigation of oxygen precipitation related crystal defects in processed silicon wafers by infrared light scattering tomography. Materials Science and Engineering: B 36:1-3, pages 225-229.
Crossref
G. Kissinger, J. Vanhellemont, C. Claeys & H. Richter. (1996) Observation of stacking faults and prismatic punching systems in silicon by light scattering tomography. Journal of Crystal Growth 158:3, pages 191-196.
Crossref
K. Sumino. 1996. Early Stages of Oxygen Precipitation in Silicon. Early Stages of Oxygen Precipitation in Silicon 263 282 .
S. Senkader, J. Esfandyari & G. Hobler. (1995) A model for oxygen precipitation in silicon including bulk stacking fault growth. Journal of Applied Physics 78:11, pages 6469-6476.
Crossref
A. Borghesi, B. Pivac, A. Sassella & A. Stella. (1995) Oxygen precipitation in silicon. Journal of Applied Physics 77:9, pages 4169-4244.
Crossref
M Lefeld-Sosnowska, J Gronkowski & G Kowalski. (1995) A study of defects generated in Czochralski-grown Si during two-step annealing. Journal of Physics D: Applied Physics 28:4A, pages A42-A46.
Crossref
Luan Hong-fa, Zhang Jun, Xiao Zhi-gang & Ke Jun. (1995) Interaction of oxygen precipitates with structural defects in CZ Si crystals. Acta Physica Sinica (Overseas Edition) 4:3, pages 213-218.
Crossref
F. Shimura. 1994. 577 617 .
W. Bergholz. 1994. 513 575 .
T.Y. Tan & W.J. Taylor. 1994. 353 390 .
Shigeru Aoki. (1993) Morphology of Oxide Precipitates in Silicon Crystals. Materials Transactions, JIM 34:9, pages 746-752.
Crossref
W. Wijaranakula. (1993) The dissolution mechanism of oxide precipitates in czochralski silicon degenerately doped with boron during high temperature annealing. Journal of Electronic Materials 22:1, pages 105-110.
Crossref
W. Wijaranakula. (1992) Morphology of oxide precipitates in Czochralski silicon degenerately doped with boron. Journal of Applied Physics 72:9, pages 4026-4030.
Crossref
W. Wijaranakula. (1992) Oxygen precipitation and defects in heavily doped Czochralski silicon. Journal of Applied Physics 72:7, pages 2713-2723.
Crossref
W. J. Taylor, U. Gösele & T. Y. Tan. (1992) SiO2 precipitate strain relief in Czochralski Si: Self-interstitial emission versus prismatic dislocation loop punching. Journal of Applied Physics 72:6, pages 2192-2196.
Crossref
S. M. Hu & D. Chidambarrao. (1992) Effect of crystallographic alignment of isolation trenches: A resolved-shear-stress perspective. Applied Physics Letters 61:7, pages 783-785.
Crossref
P. J. Halfpenny. (1992) Dislocation generation in silicon during CMOS device processing. Journal of Materials Science: Materials in Electronics 3:2, pages 107-112.
Crossref
V. Holý & J. Kuběna. (2006) X‐Ray Double and Triple Crystal Diffractometry of Silicon Crystals with Small Defects. physica status solidi (b) 170:1, pages 9-25.
Crossref
S. Mahajan. 1992. Concise Encyclopedia of Semiconducting Materials & Related Technologies. Concise Encyclopedia of Semiconducting Materials & Related Technologies 353 358 .
S Mahajan & L C Kimerling. 1992. Concise Encyclopedia of Semiconducting Materials & Related Technologies. Concise Encyclopedia of Semiconducting Materials & Related Technologies xvii xxiii .
Jianming Li. (1991) Electrical characters of oxygen defects in silicon subjected to intrinsic gettering treatment. Journal of Applied Physics 70:1, pages 511-513.
Crossref
Supapan Visitserngtrakul, Stephen J. Krause & Bernhard F. Cordts. (1991) Formation of multiply faulted defects in oxygen implanted silicon-on-insulator material. Journal of Applied Physics 69:3, pages 1784-1786.
Crossref
P.K. Sinha & W.S. Glaunsinger. (2011) Electron microscopic studies of internal gettering of nickel in silicon. Journal of Materials Research 5:5, pages 1013-1016.
Crossref
Q. Sun, K. H. Yao, J. Lagowski & H. C. Gatos. (1990) Effect of carbon on oxygen precipitation in silicon. Journal of Applied Physics 67:9, pages 4313-4319.
Crossref
S. Visitserngtrakul, C. O. Jung, B. F. Cordts, P. Roitman & S. J. Krause. (2011) High Resolution Electron Microscopy of Defects in High-Dose Oxygen Implanted Silicon-On-Insulator Material. MRS Proceedings 183.
Crossref
M B Simpson, P J Halfpenny, M A Emmott, J Brown, J W Steeds, F Johnson & A Brinklow. (1989) Oxygen precipitation in silicon during CMOS processing: an FTIR microspectroscopic, X-ray topographic and TEM study of spatial variation in defect formation. Semiconductor Science and Technology 4:9, pages 701-710.
Crossref
S. Visitserngtrakul. (2020) Multiply faulted defects in high-current oxygen-implanted silicon-on-insulator. Proceedings, annual meeting, Electron Microscopy Society of America 47, pages 606-607.
Crossref
W. Boyd Rogers, Hisham Z. Massoud, Richard B. Fair, Ulrich M. Gösele, Teh Y. Tan & George A. Rozgonyi. (1989) The role of silicon self-interstitial supersaturation in the retardation of oxygen precipitation in Czochralski silicon. Journal of Applied Physics 65:11, pages 4215-4219.
Crossref
S. Visitsemgtrakul, B.F. Cordts & S. Krause. (2011) Effect of Implantation Conditions on the Microstructure of High-Current, Oxygen Implanted Silicon-on-Insulator Material. MRS Proceedings 157.
Crossref
Fumio Shimura. 1989. Semiconductor Silicon Crystal Technology. Semiconductor Silicon Crystal Technology 279 377 .
S. Mahajan. (1989) Growth- and processing-induced defects in semiconductors. Progress in Materials Science 33:1, pages 1-84.
Crossref
W. Zulehner. 1989. Semiconductor Silicon. Semiconductor Silicon 127 152 .
B. P. R. Marioton & U. Gösele. (1988) Transport of thermodynamic information by self-interstitials between precipitates in silicon. Journal of Applied Physics 63:9, pages 4661-4668.
Crossref
P. Czurratis, R. Keoggel, V. Syneček, M. Simerska & H. Loffler. (1988) Dislocation loops in AlZn and AlZnMg alloys. Physica Status Solidi (a) 106:2, pages 407-418.
Crossref
James P. Lavine, Russell J. Taras & Gilbert A. Hawkins. (2011) Oxygen Precipitation in Silicon: Monte Carlo and Deterministic Studies. MRS Proceedings 141.
Crossref
O. Ueda, K. Nauka, J. Lagowski & H. C. Gatos. (1986) Identification of intrinsic gettering centers in oxygen-free silicon crystals. Journal of Applied Physics 60:2, pages 622-626.
Crossref
C.H.L. Goodman. (1986) The need for high purity materials. Journal of Crystal Growth 75:1, pages 1-14.
Crossref
J. M. Hwang & D. K. Schroder. (1986) Recombination properties of oxygen-precipitated silicon. Journal of Applied Physics 59:7, pages 2476-2487.
Crossref
T. Y. Tan & C. Y. Kung. (1986) Oxygen precipitation retardation and recovery phenomena in Czochralski silicon: Experimental observations, nuclei dissolution model, and relevancy with nucleation issues. Journal of Applied Physics 59:3, pages 917-931.
Crossref
S. M. Hu. (1986) Growth law for disk precipitates, and oxygen precipitation in silicon. Applied Physics Letters 48:2, pages 115-117.
Crossref
B. Leroy. (1986) Silicon wafers for integrated circuit process. Revue de Physique Appliquée 21:8, pages 467-488.
Crossref
D. Braunig, K. H. Yang, T. Y. Tan & C. P. Schneider. (1985) In depth generation lifetime profiling of heat-treated czochralski silicon. physica status solidi (a) 92:1, pages 327-335.
Crossref
H. L. Tsai. (1985) Precipitate morphologies in heat-treated Czochralski silicon crystals. Journal of Applied Physics 58:10, pages 3775-3778.
Crossref
J. C. MikkelsenJr.Jr.. (2012) The Metallurgy of Oxygen in Silicon. JOM 37:5, pages 51-54.
Crossref
T. Y. Tan. (2011) Exigent-Accommodation-Volume of Precipitation and Formation of Oxygen Precipitates in Silicon. MRS Proceedings 59.
Crossref
S. M. Hu. (2011) Oxygen Precipitation in Silicon. MRS Proceedings 59.
Crossref
Kazumi Wada & Naohisa Inoue. (1985) Growth kinetics of oxide precipitates in Czochralski silicon. Journal of Crystal Growth 71:1, pages 111-117.
Crossref
H. Bender. (1984) Investigation of the oxygen-related lattice defects in Czochralski silicon by means of electron microscopy techniques. Physica Status Solidi (a) 86:1, pages 245-261.
Crossref
Ekyo Kuroda, Hirotsugu Kozuka & Yukio Takano. (1984) The effect of temperature oscillations at the growth interface on crystal perfection. Journal of Crystal Growth 68:2, pages 613-623.
Crossref
A. Bourret, J. Thibault-Desseaux & D. N. Seidman. (1984) Early stages of oxygen segregation and precipitation in silicon. Journal of Applied Physics 55:4, pages 825-836.
Crossref
Seiichi Isomae, Shigeru Aoki & Kikuo Watanabe. (1984) Depth profiles of interstitial oxygen concentrations in silicon subjected to three-step annealing. Journal of Applied Physics 55:4, pages 817-824.
Crossref
R. F. Pinizzotto, H. F. Schaake, R. G. Massey & D. W. Heidt. (2011) Temperature Ramping for Nucleation of Oxygen Precipitates in Silicon. MRS Proceedings 36.
Crossref
J. C. MikkelsenJrJr. (2011) The Chemistry of Oxygen in Silicon. MRS Proceedings 36.
Crossref
F. A. Ponce, T. Yamashita & S. Hahn. (1983) Structure of thermally induced microdefects in Czochralski silicon after high-temperature annealing. Applied Physics Letters 43:11, pages 1051-1053.
Crossref
H. F. Schaake & J. H. Tregilgas. (1983) Precipitation of tellurium in (Hg, Cd)Te alloys. Journal of Electronic Materials 12:6, pages 931-945.
Crossref
Michio Tajima, U. Gösele, J. Weber & R. Sauer. (1983) Photoluminescence associated with thermally induced microdefects in Czochralski-grown silicon crystals. Applied Physics Letters 43:3, pages 270-272.
Crossref
H.L. TSAI & R.W. CARPENTER. (2020) New precipitate morphology in heat treated CZ Si wafers. Proceedings, annual meeting, Electron Microscopy Society of America 41, pages 152-153.
Crossref
Osamu Ueda, Itsuo Umebu & Tsuyoshi Kotani. (1983) Transmission electron microscopic observation of defects in heavily doped LPE InGaAsP layers with Zn, Cd, Sn and Te. Journal of Crystal Growth 62:2, pages 329-342.
Crossref
C. Claeys, H. Bender, G. Declerck, J. Van Landuyt, R. Van Overstraeten & S. Amelinckx. (1983) Impact of high temperature processing on bulk defects in czochralski silicon. Physica B+C 116:1-3, pages 148-161.
Crossref
F. A. Ponce & S. Hahn. (2011) Structure of Thermally-Induced Microdefects in Czochralski Silicon. MRS Proceedings 31.
Crossref
C. L. Claeys. 1983. Process and Device Simulation for MOS-VLSI Circuits. Process and Device Simulation for MOS-VLSI Circuits 88 124 .
R C Newman. (1982) Defects in silicon. Reports on Progress in Physics 45:10, pages 1163-1210.
Crossref
Y. Nishino & T. Imura. (1982) Generation Process of Dislocations in Precipitate-Containing Silicon Crystals. physica status solidi (a) 73:1, pages 173-182.
Crossref
B.O. Kolbesen & A. Mühlbauer. (1982) Carbon in silicon: Properties and impact on devices. Solid-State Electronics 25:8, pages 759-775.
Crossref
R.R. Sutherland. (1982) The influence of boron induced and oxidation induced defects on bipolar transistor slice yield. Solid-State Electronics 25:1, pages 15-23.
Crossref
B. O. Kolbesen. 1982. Large Scale Integrated Circuits Technology: State of the Art and Prospects. Large Scale Integrated Circuits Technology: State of the Art and Prospects 33 69 .
R. Gleichmann, M. Pasemann, H. Blumtritt & H. Johansen. 1982. Elektronenmikroskopie in der Festkörperphysik. Elektronenmikroskopie in der Festkörperphysik 381 406 .
Werner Zulehner & Diethart Huber. 1982. Silicon Chemical Etching. Silicon Chemical Etching 1 143 .
Fumio Shimura. (1981) Redissolution of precipitated oxygen in Czochralski-grown silicon wafers. Applied Physics Letters 39:12, pages 987-989.
Crossref
Motonobu Futagami. (1981) Formation of clean stacking faults and oxide microdefects in Czochralski silicon. Journal of Applied Physics 52:9, pages 5575-5583.
Crossref
S. M. Hu. (1981) Precipitation of oxygen in silicon: Some phenomena and a nucleation model. Journal of Applied Physics 52:6, pages 3974-3984.
Crossref
S. M. Hu. (1980) Infrared absorption spectra of SiO2 precipitates of various shapes in silicon: calculated and experimental. Journal of Applied Physics 51:11, pages 5945-5948.
Crossref
A. Ohsawa, K. Honda, S. Ohkawa & K. Shinohara. (1980) Oxygen striation and thermally induced microdefects in Czochralski-grown silicon crystals. Applied Physics Letters 37:2, pages 157-159.
Crossref
Michio Tajima, Seigô Kishino, Masaru Kanamori & Takashi Iizuka. (1980) Photoluminescence analysis of annealed silicon crystals. Journal of Applied Physics 51:4, pages 2247-2254.
Crossref
Osamu Ueda, Shigenobu Yamakoshi, Satoshi Komiya, Kenzo Akita & Toyoshi Yamaoka. (1980) Transmission electron microscope observation of dark-spot defects in InGaAsP/InP double-heterostructure light-emitting diodes aged at high temperature. Applied Physics Letters 36:4, pages 300-301.
Crossref
Jiro Ōsaka, Naohisa Inoue & Kazumi Wada. (1980) Homogeneous nucleation of oxide precipitates in Czochralski-grown silicon. Applied Physics Letters 36:4, pages 288-290.
Crossref
Ulrich Gösele & Werner Frank. (2011) Point Defects, Diffusion Mechanisms, and the Shrinkage and Growth of Extended Defects in Silicon. MRS Proceedings 2.
Crossref
W. K. TICE & T. Y. Tan. (2011) Precipitation of Oxygen and Intrinsic Gettering in Silicon. MRS Proceedings 2.
Crossref
Seigô Kishino, Masaru Kanamori, Naotsugu Yoshihiro, Michio Tajima & Takashi Iizuka. (1979) Heat-treatment behavior of microdefects and residual impurities in CZ silicon crystals. Journal of Applied Physics 50:12, pages 8240-8243.
Crossref
K. Tempelhoff, F. Spiegelberg, R. Gleichmann & D. Wruck. (1979) Precipitation of oxygen in dislocation-free silicon. Physica Status Solidi (a) 56:1, pages 213-223.
Crossref
W. Patrick, E. Hearn, W. Westdorp & A. Bohg. (1979) Oxygen precipitation in silicon. Journal of Applied Physics 50:11, pages 7156-7164.
Crossref
K. H. Yang, H. F. Kappert & G. H. Schwuttke. (1978) Minority carrier lifetime in annealed silicon crystals containing oxygen. Physica Status Solidi (a) 50:1, pages 221-235.
Crossref
SeigÔ Kishino. (1978) X-ray channeling technique using anomalous transmission and its application to si micro-defects induced by heat treatment. Journal of Electronic Materials 7:6, pages 727-736.
Crossref
G. Weidner. (1978) Application of hillock etching of microdefects to the investigation of Czochralski silicon by transmission electron microscopy. Physica Status Solidi (a) 48:2, pages K105-K107.
Crossref
Seigô Kishino, Seiichi Isomae, Masao Tamura & Michiyoshi Maki. (1978) Growth behavior of oxidation stacking faults and microdefects in silicon during high-temperature annealing. Journal of Applied Physics 49:6, pages 3255-3258.
Crossref
J. A. Van Vechten. (1978) Formation of interstitial-type dislocation loops in tetrahedral semiconductors by precipitation of vacancies. Physical Review B 17:8, pages 3197-3206.
Crossref
W. R. Wagner. (1978) Tellurium-induced defects in LPE Al0.36Ga0.64As. Journal of Applied Physics 49:1, pages 173-180.
Crossref
Ron Anderson, K. H. Yang & H. F. Kappert. (2020) Identification of oxide precipitates in annealed silicon crystals. Proceedings, annual meeting, Electron Microscopy Society of America 36:1, pages 536-537.
Crossref
J. R. Patel, K. A. Jackson & H. Reiss. (1977) Oxygen precipitation and stacking-fault formation in dislocation-free silicon. Journal of Applied Physics 48:12, pages 5279-5288.
Crossref
S. M. Hu. (1977) A method for finding critical stresses of dislocation movement. Applied Physics Letters 31:3, pages 139-141.
Crossref
T. Y. Tan, E. E. Gardner & W. K. Tice. (1977) Intrinsic gettering by oxide precipitate induced dislocations in Czochralski Si. Applied Physics Letters 30:4, pages 175-176.
Crossref
T. Y. Tan, L. L. Wu & W. K. Tice. (1976) Nucleation of stacking faults at oxide precipitate-dislocation complexes in silicon. Applied Physics Letters 29:12, pages 765-767.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.