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Article overview
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Enhancement-mode buried strained silicon channel quantum dot with tunable lateral geometry | T. M. Lu
; N. C. Bishop
; T. Pluym
; J. Means
; P. G. Kotula
; J. Cederberg
; L. A. Tracy
; J. Dominguez
; M. P. Lilly
; M. S. Carroll
; | Date: |
2 Jun 2011 | Abstract: | We propose and demonstrate a relaxed-SiGe/strained-Si (SiGe/s-Si)
enhancement-mode gate stack for quantum dots. The enhancement-mode SiGe/s-Si
structure is pursued because it spaces the quantum dot away from charge and
spin defect rich dielectric interfaces and minimizes background dopants. A
mobility of 1.6 imes10^5 cm^2/Vs at 5.8 imes10^{11}/cm^2 is measured in Hall
bars that witness the same device process flow as the quantum dot. Periodic
Coulomb blockade (CB) is measured in a double-top-gated lateral quantum dot
nanostructure. The CB terminates with open diamonds up to pm 10 mV of DC
voltage across the device. The devices were fabricated within a 150 mm Si
foundry setting that uses implanted ohmics and chemical-vapor-deposited
dielectrics, in contrast to previously demonstrated enhancement-mode SiGe/s-Si
structures made with AuSb alloyed ohmics and atomic-layer-deposited dielectric.
A modified implant, polysilicon formation and annealing conditions were
utilized to minimize the thermal budget so that the buried s-Si layer would not
be washed out by Ge/Si interdiffusion. | Source: | arXiv, 1106.0337 | Services: | Forum | Review | PDF | Favorites |
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