Background doping of films in molecular beam epitaxy of silicon

被引:0
|
作者
B. Z. Kanter
A. I. Nikiforov
O. P. Pchelyakov
机构
[1] Siberian Branch of the Russian Academy of Sciences,Institute of Semiconductor Physics
来源
Technical Physics Letters | 1998年 / 24卷
关键词
Silicon; Molecular Beam Epitaxy; Molecular Beam; Unique Result; Active Background;
D O I
暂无
中图分类号
学科分类号
摘要
Unique results obtained as a result of the development of epitaxial silicon layers with an extremely low concentration of background impurities for infrared photodetectors with blocked impurity photoconduction are analyzed and generalized. Changes in the type and concentration of electrically active background impurities in films grown by molecular beam epitaxy were investigated at all stages in the operation of the system, from initial startup to the fabrication of films having an extremely low level of background impurities <4×1013 cm−3. The laws governing the changes in the type and level of background doping during operation of the system and the mechanism responsible for these changes are established.
引用
收藏
页码:91 / 93
页数:2
相关论文
共 50 条
  • [1] Background doping of films in molecular beam epitaxy of silicon
    Kanter, BZ
    Nikiforov, AI
    Pchelyakov, OP
    TECHNICAL PHYSICS LETTERS, 1998, 24 (02) : 91 - 93
  • [2] Doping of silicon layers from a sublimating erbium source in molecular beam epitaxy
    Svetlov, SP
    Chalkov, VY
    Shengurov, VG
    Uskova, EA
    Maksimov, GA
    Andreev, BA
    Krasil'nik, ZF
    Stepikhova, MV
    Ellmer, H
    TECHNICAL PHYSICS LETTERS, 2000, 26 (01) : 41 - 43
  • [3] Doping of silicon layers from a sublimating erbium source in molecular beam epitaxy
    S. P. Svetlov
    V. Yu. Chalkov
    V. G. Shengurov
    E. A. Uskova
    G. A. Maksimov
    B. A. Andreev
    Z. F. Krasil’nik
    M. V. Stepikhova
    H. Ellmer
    Technical Physics Letters, 2000, 26 : 41 - 43
  • [4] Heavy arsenic doping of silicon by molecular beam epitaxy
    Liu, X
    Tang, Q
    Kamins, TI
    Harris, JS
    JOURNAL OF CRYSTAL GROWTH, 2003, 251 (1-4) : 651 - 656
  • [5] High germanium doping of GaN films by ammonia molecular beam epitaxy
    Fireman, Micha N.
    L'Heureux, Guillaume
    Wu, Feng
    Mates, Tom
    Young, Erin C.
    Speck, James S.
    JOURNAL OF CRYSTAL GROWTH, 2019, 508 : 19 - 23
  • [6] Arsenic doping kinetics in silicon during gas source molecular beam epitaxy
    Xie, MH
    Zhang, J
    Fernandez, JM
    Lees, AK
    Joyce, BA
    SURFACE SCIENCE, 1998, 397 (1-3) : 164 - 169
  • [7] Molecular beam epitaxy of silicon-germanium nanostructures
    Pchelyakov, OP
    Bolkhovityanova, YB
    Dvurechenskii, AV
    Nikiforov, AI
    Yakimov, AI
    Voigtländer, B
    THIN SOLID FILMS, 2000, 367 (1-2) : 75 - 84
  • [8] Simultaneous doping of silicon layers with erbium and oxygen in the course of molecular-beam epitaxy
    V. G. Shengurov
    S. P. Svetlov
    V. Yu. Chalkov
    G. A. Maksimov
    Z. F. Krasil’nik
    B. A. Andreev
    M. V. Stepikhova
    D. V. Shengurov
    L. Palmetshofer
    H. Ellmer
    Semiconductors, 2001, 35 : 918 - 923
  • [9] Antimony segregation and n-type doping in Si/Si(111) films grown by molecular beam epitaxy
    Yurasov, D. V.
    Drozdov, M. N.
    Schmagin, V. B.
    Yunin, P. A.
    Novikov, A. V.
    JOURNAL OF CRYSTAL GROWTH, 2017, 475 : 291 - 294
  • [10] A study of cracking in GaN grown on silicon by molecular beam epitaxy
    Jothilingam, R
    Koch, MW
    Posthill, JB
    Wicks, GW
    JOURNAL OF ELECTRONIC MATERIALS, 2001, 30 (07) : 821 - 824
12345