Localized intermixing of AlAs and GaAs layers for lithographic control of the lateral oxidation of AlAs

被引:0
|
作者
Massengale, AR
Tai, CY
Deal, MD
Plummer, JD
Harris, JS
机构
[1] Stanford Univ, Solid State Elect Lab, Stanford, CA 94305 USA
[2] Stanford Univ, Integrated Circuits Lab, Stanford, CA 94305 USA
来源
COMPOUND SEMICONDUCTORS 1997 | 1998年 / 156卷
关键词
D O I
10.1109/ISCS.1998.711647
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We present a method to achieve lithographic control of the lateral oxidation of AlAs layers. The technique uses impurity induced layer disordering (IILD) in buried, heavily Si-doped layers to introduce Ga atoms into the AlAs layers to be oxidized. By selectively patterning the wafer surface and combining point defect generation mechanisms from the uncapped surface and in the highly Si-doped layers, this intermixing may be localized. Because lateral oxidation rates are heavily dependent on Al mole-fraction, lateral oxidation stop layers can thus be formed. Results are discussed for several types of capping conditions, and SUPREM simulations of the two-dimensional disordering process are presented.
引用
收藏
页码:329 / 332
页数:4
相关论文
共 50 条
  • [1] Localized intermixing of AlAs and GaAs layers for lithographic control of the lateral oxidation of AlAs
    Massengale, AR
    Tai, CY
    Deal, MD
    Plummer, JD
    Harris, JS
    1997 IEEE INTERNATIONAL SYMPOSIUM ON COMPOUND SEMICONDUCTORS, 1998, : 329 - 332
  • [2] Localized impurity induced layer disordering for lithographic control of the lateral oxidation of AlAs
    Solid State Electronics Laboratory, Center for Integrated Systems, Stanford University, Stanford, CA 94305-4075, United States
    不详
    不详
    Electron Lett, 12 (1087-1089):
  • [3] Localised impurity induced layer disordering for lithographic control of the lateral oxidation of AlAs
    Massengale, AR
    Ueda, T
    Harris, JS
    Tai, CY
    Deal, MD
    Plummer, JD
    Fernandez, R
    ELECTRONICS LETTERS, 1997, 33 (12) : 1087 - 1089
  • [4] Wet oxidation of thin AlAs in cylindrical composite of GaAs/AlAs/GaAs
    Ko, Sun-Chien
    Lee, Sanboh
    Chou, Y. T.
    MATERIALS CHEMISTRY AND PHYSICS, 2011, 130 (03) : 1341 - 1345
  • [5] CONFINED OPTICAL PHONONS IN THE ALAS LAYERS OF GAAS/ALAS SUPERLATTICES
    HAISLER, VA
    TENNE, DA
    MOSHEGOV, NT
    TOROPOV, AI
    MARAKHOVKA, II
    SHEBANIN, AP
    JETP LETTERS, 1995, 61 (05) : 376 - 380
  • [6] ELECTRICAL CHARACTERIZATION OF ALAS LAYERS AND GAAS-ALAS SUPERLATTICES
    FENG, SL
    ZAZOUI, M
    BOURGOIN, JC
    MOLLOT, F
    JOURNAL OF APPLIED PHYSICS, 1990, 67 (01) : 276 - 280
  • [7] Lateral wet oxidation of AlAs layer in GaAs/AlAs heterostructures grown by MBE on GaAs (n 1 1)A substrates
    Koizumi, K
    Vaccaro, PO
    Fujita, K
    Tateuchi, M
    Ohachi, T
    JOURNAL OF CRYSTAL GROWTH, 1999, 198 : 1136 - 1140
  • [8] Lateral wet oxidation of AlAs layer in GaAs/AlAs heterostructures grown by MBE on GaAs (n 1 1)A substrates
    Koizumi, Kazuhisa
    Vaccaro, Pablo O.
    Fujita, Kazuhisa
    Tateuchi, Mitsuru
    Ohachi, Tadashi
    Journal of Crystal Growth, 1999, 198-199 (pt 2): : 1136 - 1140
  • [9] Fabrication control during AlAs oxidation of the VCSELs via optical probing technique of AlAs lateral oxidation (OPTALO)
    Sakamoto, A
    Nakayama, H
    Nakamura, T
    VERTICAL-CAVITY SURFACE-EMITTING LASERS VI, 2002, 4649 : 211 - 217
  • [10] ROLE OF VACANCIES AND IMPLANTATION DEFECTS IN GAAS/ALAS SUPERLATTICE INTERMIXING
    MITRA, S
    STARK, JP
    JOURNAL OF MATERIALS SCIENCE, 1991, 26 (24) : 6650 - 6654
12345