Title: Boosting Ge-epi P-well Mobility & Crystal Quality with Si or Sn Implantation and Melt Annealing
Authors: Borland, John
Chaung, Shang-Shuin
Tseng, Tseung-Yuen
Joshi, Abhij Eet
Basol, Bulent
Lee, Yao-Jen
Kuroi, Takashi
Tabata, Toshiyuki
Huet, Karim
Goodman, Gary
Khapochkina, Nadya
Buyuklimanli, Temel
交大名義發表
電機工程學系
National Chiao Tung University
Department of Electrical and Computer Engineering
Issue Date: 1-Jan-2018
Abstract: We investigated the effects of Si, Sn and cluster-C implantation into both P-well and N-well doped regions of Ge-epi on Si wafers after laser annealing. XRD analysis shows improved Ge-epi crystallinity after >1.5J/cm(2) laser melt annealing (liquid phase epitaxial regrowth) compared to sub-melt annealing (solid phase epitaxial regrowth). For the P-well case the Ge-epi Rs decreased to 1,600 Omega/square compared to Si at 3,400 Omega/square suggesting a hole mobility increase of 2.1x from 150cm(2)/V-s to 315cm(2)/V-s but actual measured Hall mobility was 650cm(2)/V-s to a depth of 60nm, an increase of 4.3x. The 1.8J/cm(2) laser melt anneal with Si implant improved mobility uniformly to 700cm(2)/V-s to a depth of 100nm while Sn implant improved mobility to 900cm(2)/V-s from the Ge-epi surface to a depth of 70nm then increases to 3000cm(2)/V-s at a depth of 100nm. Measuring mobility depth profiles can be very critical in engineering surface and bulk mobility improvements which can be determined by chemical compositional changes in the Ge-epilayer especially for C where no liquid phase diffusion or movement could be detected.
URI: http://dx.doi.org/10.1149/08607.0357ecst
http://hdl.handle.net/11536/155054
ISBN: 978-1-60768-853-2
ISSN: 1938-5862
DOI: 10.1149/08607.0357ecst
Journal: SIGE, GE, AND RELATED COMPOUNDS: MATERIALS, PROCESSING, AND DEVICES 8
Volume: 86
Issue: 7
Begin Page: 357
End Page: 372
Appears in Collections:Conferences Paper