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Alexei Bykhovski Phones & Addresses

  • 704 Samuel Cary Dr, Cary, NC 27511
  • Raleigh, NC
  • 446 Farrish Cir, Charlottesville, VA 22903 (434) 296-4531
  • Charlottesvle, VA
  • 3815 Mockingbird Hill Rd, Bethlehem, PA 18015
  • Wade, NC

Skills

Absorption Spectroscopy • Mathematical Modeling • Computer Simulation • Molecular Dynamics • Applications Software Development • Electrical Engineering • Biomedicine • Bioinformatics • Computational Chemistry • Computational Physics • Statistics • Quantum Mechanics • Nanobiotechnology • Molecular Modeling • Ab Initio

Languages

English • Russian • French • Japanese

Ranks

Certificate: Microsoft Certified Solution Developer (Mcsd)

Industries

Higher Education

Resumes

Resumes

Alexei Bykhovski Photo 1

Alexei Bykhovski

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Location:
Raleigh, NC
Industry:
Higher Education
Skills:
Absorption Spectroscopy
Mathematical Modeling
Computer Simulation
Molecular Dynamics
Applications Software Development
Electrical Engineering
Biomedicine
Bioinformatics
Computational Chemistry
Computational Physics
Statistics
Quantum Mechanics
Nanobiotechnology
Molecular Modeling
Ab Initio
Languages:
English
Russian
French
Japanese
Certifications:
Microsoft Certified Solution Developer (Mcsd)
Microsoft Certified Application Developer (Mcad.net)
Microsoft Certified Professional
Sun Certified Professional
Microsoft
Sun Microsystems

Publications

Us Patents

Method Of Local Electro-Magnetic Field Enhancement Of Terahertz (Thz) Radiation In Sub- Wavelength Regions And Improved Coupling Of Radiation To Materials Through The Use Of The Discontinuity Edge Effect

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US Patent:
8309930, Nov 13, 2012
Filed:
Mar 5, 2008
Appl. No.:
12/530304
Inventors:
Boris Gelmont - Charlottesville VA, US
Tatiana Globus - Charlottesville VA, US
Robert M Weikle - Crozet VA, US
Arthur Weston Linchtenberger - Charlottesville VA, US
Nathan Swami - Charlottesville VA, US
Ramakrishnan Parthasarthy - Houston TX, US
Alexei Bykhovski - Raleigh NC, US
Assignee:
University of Virginia Patent Foundation - Charlottesville VA
International Classification:
G01J 5/02
US Classification:
2503411
Abstract:
A method and apparatus for enhanced THz radiation coupling to molecules, includes the steps of depositing a test material near the discontinuity edges of a slotted member, and enhancing the THz radiation by transmitting THz radiation through the slots. The molecules of the test material are illuminated by the enhanced THz radiation that has been transmitted through the slots, thereby producing an increased coupling of EM radiation in the THz spectral range to said material. The molecules can be bio-molecules, explosive materials, or species of organisms. The slotted member can be a semiconductor film, a metallic film, in particular InSb, or layers thereof. THz detectors sense near field THz radiation that has been transmitted through said slots and the test material.

Method Of Local Electro-Magnetic Field Enhancement Of Terahertz (Thz) Radiation In Sub-Wavelength Regions And Improved Coupling Of Radiation To Materials Through The Use Of The Discontinuity Edge Effect

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US Patent:
8525115, Sep 3, 2013
Filed:
Aug 1, 2012
Appl. No.:
13/564102
Inventors:
Boris Gelmont - Charlottesville VA, US
Tatiana Globus - Charlottesville VA, US
Nathan Swami - Charlottesville VA, US
Robert M Weikle - Crozet VA, US
Arthur Weston Lichtenberger - Charlottesville VA, US
Ramakrishnan Parthasarathy - Houston TX, US
Alexei Bykhovski - Raleigh NC, US
Assignee:
University of Virginia Patent Foundation - Charlottesville VA
International Classification:
G01J 5/02
US Classification:
2503411
Abstract:
A method and apparatus for enhanced THz radiation coupling to molecules, includes the steps of depositing a test material near the discontinuity edges of a slotted member, and enhancing the THz radiation by transmitting THz radiation through the slots. The molecules of the test material are illuminated by the enhanced THz radiation that has been transmitted through the slots, thereby producing an increased coupling of EM radiation in the THz spectral range to said material. The molecules can be bio-molecules, explosive materials, or species of organisms. The slotted member can be a semiconductor film, a metallic film, in particular InSb, or layers thereof. THz detectors sense near field THz radiation that has been transmitted through said slots and the test material.

Micro-Rna Based Diagnoses Of Ovarian And Other Cancers Via Sub-Terahertz Vibrational Spectroscopy

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US Patent:
20170247764, Aug 31, 2017
Filed:
Feb 16, 2017
Appl. No.:
15/435111
Inventors:
- Charlottesville VA, US
Boris Gelmont - Charlottesville VA, US
Amir Jazaery - Houston TX, US
Alexei Bykhovski - Cary NC, US
Igor Sizov - Alexandria VA, US
Aaron Moyer - Ruckersville VA, US
Jerome Ferrance - Charlottesville VA, US
International Classification:
C12Q 1/68
Abstract:
Certain exemplary embodiments can provide a method, which comprises causing a determination to be made that a body fluid sample is from a patient with cancer. The determination can be made via analyzing the body fluid sample by sub-THz resonance spectroscopy with absorption determinations being made at a plurality of frequencies between 0.05 and 1.0 THz to show a presence of specific Micro-RNAs as cancer related molecules in the body fluid.
Alexei Bykhovski from Cary, NC, age ~63 Get Report