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Kirill Shtengel

from Oxnard, CA
Age ~59
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Also known as:
Shtengel Krill, David Ward
Phone and address:
5353 Driftwood St, Oxnard, CA 93035
Related to:
Gleb ShtengelAnna Shtengel, 50Dina Bado, 75Gregory Bado, 76Maria Shtengel
Connected to:
Antonia A Shtereva, 47Elena Shtern, 43Ludmila S Shtern, 89Marina Shtern, 47Nusin D Shtern, 73Vladimir Shtern, 68Eugene Shternfeld, 46Genadiy Shteyman, 49Alexander Shteynberg, 77Antonina Shteyn, 73

Kirill Shtengel Phones & Addresses

  • 5353 Driftwood St, Oxnard, CA 93035
  • Pasadena, CA
  • Santa Barbara, CA
  • Carpinteria, CA
  • Irvine, CA
  • South Pasadena, CA
  • Seattle, WA
  • Los Angeles, CA
  • Mountain View, CA
  • Berkeley Heights, NJ

Work

Company: University of california, riverside 2005 Position: Professor of physics

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of California, Los Angeles Specialities: Physics

Industries

Higher Education

Resumes

Resumes

Kirill Shtengel Photo 1

Professor Of Physics

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Location:
5353 Driftwood St, Oxnard, CA 93035
Industry:
Higher Education
Work:
University of California, Riverside
Professor of Physics
Caltech
Visiting Assocoate
Microsoft 2002 - 2004
Postdoctoral Researsher
Education:
University of California, Los Angeles
Doctorates, Doctor of Philosophy, Physics

Publications

Us Patents

Use Of Sack Geometry To Implement A Single Qubit Phase Gate

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US Patent:
8076666, Dec 13, 2011
Filed:
Aug 28, 2009
Appl. No.:
12/549774
Inventors:
Parsa Bonderson - Santa Barbara CA, US
Kirill Shtengel - South Pasadena CA, US
David Clarke - Riverside CA, US
Chetan Nayak - Santa Monica CA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
H01L 29/00
H01L 29/06
US Classification:
257 9, 257 30
Abstract:
An implementation of a single qubit phase gate for use in a quantum information processing scheme based on the υ=5/2 fractional quantum Hall (FQH) state is disclosed. Using sack geometry, a qubit consisting of two σ-quasiparticles. which may be isolated on respective antidots, may be separated by a constriction from the bulk of a two-dimensional electron gas in the υ=5/2 FQH state. An edge quasiparticle may induce a phase gate on the qubit. The number of quasiparticles that are allowed to traverse the edge path defines which gate is induced. For example, if a certain number of quasiparticles are allowed to traverse the path, then a π/8 gate may be effected.

Use Of Sack Geometry To Implement A Single Qubit Phase Gate

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US Patent:
8471245, Jun 25, 2013
Filed:
Nov 8, 2011
Appl. No.:
13/291536
Inventors:
Parsa Bonderson - Santa Barbara CA, US
Kirill Shtengel - Seattle WA, US
David Clarke - Riverside CA, US
Chetan Nayak - Santa Monica CA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
H01L 29/00
H01L 29/06
H01L 39/22
US Classification:
257 31, 257 19, 257E39006, 257E39014, 438 2
Abstract:
An implementation of a single qubit phase gate for use in a quantum information processing scheme based on the υ=5/2 fractional quantum Hall (FQH) state is disclosed. Using sack geometry, a qubit consisting of two σ-quasiparticles, which may be isolated on respective antidots, may be separated by a constriction from the bulk of a two-dimensional electron gas in the υ=5/2 FQH state. An edge quasiparticle may induce a phase gate on the qubit. The number of quasiparticles that are allowed to traverse the edge path defines which gate is induced. For example, if a certain number of quasiparticles are allowed to traverse the path, then a π/8 gate may be effected.
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Kirill Shtengel from Oxnard, CA, age ~59 Get Report