EFFICIENT N-TYPE DOPING OF CDTE EPITAXIAL LAYERS GROWN BY PHOTO-ASSISTED MOLECULAR-BEAM EPITAXY WITH THE USE OF CHLORINE

被引：8

作者：

HOMMEL, D ^{[1
]}

SCHOLL, S ^{[1
]}

KUHN, TA ^{[1
]}

OSSAU, W ^{[1
]}

WAAG, A ^{[1
]}

LANDWEHR, G ^{[1
]}

BILGER, G ^{[1
]}

机构：

[1] UNIV STUTTGART,INST PHYS ELECTR,W-7000 STUTTGART 80,GERMANY

来源：

MATERIALS SCIENCE AND ENGINEERING B-SOLID STATE MATERIALS FOR ADVANCED TECHNOLOGY | 1993年 / 16卷 / 1-3期

关键词：

D O I：

10.1016/0921-5107(93)90038-O

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

Chlorine has been used successfully for the first time for n-type doping of CdTe epitaxial layers (epilayers) grown by photo-assisted molecular beam epitaxy. Similar to n-type doping of ZnSe layers, ZnCl2 has been used as source material. The free-carrier concentration can be varied over more than three orders of magnitude by changing the ZnCl2 oven temperature. Peak mobilities are 4700 cm2 V-1 s-1 for an electron concentration of 2 x 10(16) cm-3 and 525 cm2 V-1 s-1 for 2 x 10(18) cm-3. The electrical transport data obtained by Van der Pauw configuration and Hall structure measurements are consistent with each other, indicating a good uniformity of the epilayers. In photoluminescence the donor-bound-exciton emission dominates for all chlorine concentrations. This contasts significantly with results obtained for indium doping, commonly used for obtaining n-type CdTe epilayers. The superiority of chlorine over indium doping and the influence of growth parameters on the behaviour of CdTe:Cl layers will be discussed on the basis of transport, luminescence, secondary ion mass spectroscopy and X-ray photoelectron spectroscopy data.

引用

页码：178 / 181

页数：4

共 50 条

[31] ABOVE-BAND-GAP PHOTOLUMINESCENCE FROM N-TYPE CDTE .1. GROWN BY MOLECULAR-BEAM EPITAXY
LEE, J
GILES, NC
SUMMERS, CJ
PHYSICAL REVIEW B, 1994, 49 (16): : 11459 - 11462
[32] Non-amphoteric N-type doping with Sn of GaAs(631) layers grown by molecular beam epitaxy
Herrera, M. F. Mora
Espinosa-Vega, L. I.
Cortes-Mestizo, I. E.
Olvera-Enriquez, J. P.
Belio-Manzano, A.
Cuellar-Camacho, J. L.
Gorbatchev, A. Yu.
Del Rio-De Santiago, A.
Yee-Rendon, C. M.
Mendez-Garcia, V. H.
JOURNAL OF APPLIED PHYSICS, 2024, 135 (17)
[33] PLANAR DOPING OF P-TYPE ZNSE LAYERS WITH LITHIUM GROWN BY MOLECULAR-BEAM EPITAXY
ZHU, ZQ
MORI, H
KAWASHIMA, M
YAO, T
JOURNAL OF CRYSTAL GROWTH, 1992, 117 (1-4) : 400 - 405
[34] P-TYPE ARSENIC DOPING OF CDTE AND HGTE/CDTE SUPERLATTICES GROWN BY PHOTOASSISTED AND CONVENTIONAL MOLECULAR-BEAM EPITAXY
ARIAS, JM
SHIN, SH
COOPER, DE
ZANDIAN, M
PASKO, JG
GERTNER, ER
DEWAMES, RE
SINGH, J
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A-VACUUM SURFACES AND FILMS, 1990, 8 (02): : 1025 - 1033
[35] CHARACTERISTICS OF P-TYPE ZNSE LAYERS GROWN BY MOLECULAR-BEAM EPITAXY WITH RADICAL DOPING
OHKAWA, K
KARASAWA, T
MITSUYU, T
JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS, 1991, 30 (2A): : L152 - L155
[36] HIGHLY UNIFORM GAAS AND ALGAAS EPITAXIAL LAYERS GROWN BY MOLECULAR-BEAM EPITAXY
SAITO, J
SHIBATOMI, A
FUJITSU SCIENTIFIC & TECHNICAL JOURNAL, 1985, 21 (02): : 190 - 197
[37] Spectroscopy of the phosphorus impurity in ZnSe epitaxial layers grown by molecular-beam epitaxy
Neu, G
Tournié, E
Morhain, C
Teisseire, M
Faurie, JP
PHYSICAL REVIEW B, 2000, 61 (23): : 15789 - 15796
[38] LOW-LEVEL EXTRINSIC DOPING FOR P-TYPE AND N-TYPE (100)HGCDTE GROWN BY MOLECULAR-BEAM EPITAXY
TEMOFONTE, TA
NOREIKA, AJ
BEVAN, MJ
EMTAGE, PR
SEILER, CF
MITRA, P
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A-VACUUM SURFACES AND FILMS, 1989, 7 (02): : 440 - 444
[39] ELECTRICAL-TRANSPORT IN N-TYPE ZNMGSSE GROWN BY MOLECULAR-BEAM EPITAXY ON GAAS
MARSHALL, T
PETRUZZELLO, JA
HERKO, SP
GAINES, JM
PONZONI, CA
JOURNAL OF ELECTRONIC MATERIALS, 1994, 23 (03) : 255 - 258
[40] PHOTOLUMINESCENCE AND P-TYPE CONDUCTIVITY IN CDTE-N GROWN BY MOLECULAR-BEAM EPITAXY
DHESE, KA
DEVINE, P
ASHENFORD, DE
NICHOLLS, JE
SCOTT, CG
SANDS, D
LUNN, B
JOURNAL OF APPLIED PHYSICS, 1994, 76 (09) : 5423 - 5428

← 1 2 3 4 5 →