DEFECTS IN LOW-TEMPERATURE ELECTRON-IRRADIATED P-TYPE SILICON

被引:11
|
作者
NUBILE, P
BOURGOIN, JC
STIEVENARD, D
DERESMES, D
STROBL, G
机构
[1] INST ELECTR & MICROELECTR NORD,CNRS LABS,F-59046 LILLE,FRANCE
[2] INST SUPER ELECTR N,CNRS LABS,F-59046 LILLE,FRANCE
[3] INST PESQUISAS ESPACIAIS,BR-12201 SAO JOSE CAMPOS,BRAZIL
[4] TELEFUNKEN SYST TECH,W-71 HEILBRONN,GERMANY
来源
JOURNAL OF APPLIED PHYSICS | 1992年 / 72卷 / 07期
关键词
D O I
10.1063/1.351516
中图分类号
O59 [应用物理学];
学科分类号
摘要
Defects in monocrystalline silicon have been studied in the past, in particular, defects induced by room-temperature electron and proton irradiations on both n- and p-type materials, and most of the corresponding defects have been tentatively identified. However, there are still several questions which remain to be answered such as the nature and behavior of the defects introduced in the range 4-300 K. In this work Czochralski-grown p-type material has been irradiated at three different temperatures (90, 200, and 300 K) and characterized by deep-level transient spectroscopy (DLTS) and lifetime measurements. The data show that the defects created after irradiations at 90 and 200 K are different from those reported in the literature for irradiations at 4, 77, and 300 K, showing that three annealing steps exist between 4 and 300 K. These defects are characterized and a tentative identification of them is made. Finally, an attempt to detect the defects responsible for the lifetime, i.e., the recombination centers, not observed by DLTS, using spin-dependent recombination is described.
引用
收藏
页码:2673 / 2679
页数:7
相关论文
共 50 条
  • [31] MUONIUM AS A PROBE FOR DEFECTS IN ELECTRON-IRRADIATED SILICON
    ALBERT, E
    BARTH, S
    MOSLANG, A
    RECKNAGEL, E
    WEIDINGER, A
    MOSER, P
    APPLIED PHYSICS LETTERS, 1985, 46 (08) : 759 - 761
  • [32] Hydrogen interaction with defects in electron-irradiated silicon
    Feklisova, O.
    Yarykin, N.
    Yakimov, Eu.
    Weber, J.
    Physica B: Condensed Matter, 1999, 273 : 235 - 238
  • [33] LOW-TEMPERATURE ANNEALING SPECTRUM OF ELECTRON-IRRADIATED GOLD AND CADMIUM
    BAUER, W
    DEFORD, JW
    KOEHLER, JS
    PHYSICAL REVIEW, 1962, 128 (04): : 1497 - &
  • [34] Low-temperature TCT characterization of heavily proton irradiated p-type magnetic Czochralski silicon detectors
    Haerkoenen, J.
    Tuovinen, E.
    Luukka, P.
    Kassamakov, I.
    Autioniemi, M.
    Tuominen, E.
    Sane, P.
    Pusa, P.
    Raisanen, J.
    Eremin, V.
    Verbitskaya, E.
    Li, Z.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2007, 583 (01): : 71 - 76
  • [35] IDENTIFICATION OF THE PHOSPHOR VACANCY DEFECT IN ELECTRON-IRRADIATED P-TYPE INP
    VONBARDELEBEN, HJ
    SOLID STATE COMMUNICATIONS, 1986, 57 (02) : 137 - 139
  • [36] LENGTH CHANGES IN ELECTRON-IRRADIATED N- AND P-TYPE GERMANIUM
    NORTH, JC
    BUSCHERT, RC
    PHYSICAL REVIEW, 1966, 143 (02): : 609 - &
  • [37] Low-temperature irradiation-induced defects in p-type germanium
    Kolkovsky, Vl.
    Petersen, M. Christian
    Mesli, A.
    Larsen, A. Nylandsted
    PHYSICAL REVIEW B, 2010, 81 (03)
  • [38] CORRELATED DLTS AND ELECTRON-PARAMAGNETIC-RES MEASUREMENTS OF DEFECTS IN AS-GROWN AND ELECTRON-IRRADIATED P-TYPE GAP
    MOONEY, PM
    KENNEDY, TA
    SMALL, MB
    PHYSICA B & C, 1983, 116 (1-3): : 431 - 435
  • [39] INFLUENCE OF IRRADIATION TEMPERATURE AND OF NATURE OF DOPANT ON FORMATION OF DEFECTS IN N-TYPE ELECTRON-IRRADIATED SILICON
    VAVILOV, VS
    GLAZMAN, VB
    ISAEV, NU
    MUKASHEV, BN
    SPITSYN, AV
    SOVIET PHYSICS SEMICONDUCTORS-USSR, 1974, 8 (03): : 303 - 305
  • [40] INTERACTION BETWEEN POINT-DEFECTS, BLOCH WALLS AND DISLOCATIONS, IN LOW-TEMPERATURE ELECTRON-IRRADIATED NICKEL
    SOULIE, JC
    MINIER, C
    LAUZIER, J
    PHILOSOPHICAL MAGAZINE, 1973, 28 (04): : 739 - 747
12345