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Ilya Mark Vitebskiy

from Beavercreek, OH
Age ~74
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Also known as:
Ilya M Vitebskiy, Ilya I Vitebskiy, Ilya Living Vitebskiy, Leya M Vitebskiy, Ilya Vitebskiy The, Ilya M Vitebskey, Ilya Vitebskiy Revoc Living, Vitebskiy Ilya, Ilya Y
Phone and address:
2514 Queen Elizabeth Ct, Dayton, OH 45431
Related to:
Willie Otis Jones, 89Larry DehavenVera Vitebskiy, 75Vicki Dehaven, 74Hya Vitebskiy
Connected to:
Marina Vitebsky, 38Natalia V Vitebskiy, 43Alan G Vitek, 37Heather M Vitek, 41Jeffrey M Vitek, 57Justin A Vitek, 35Kristi L Vitek, 48Lindsey Vitek, 39Tom W Vitek, 67Anthony S Vitel, 54

Ilya Vitebskiy Phones & Addresses

  • 2514 Queen Elizabeth Ct, Dayton, OH 45431
  • Beavercreek, OH
  • 215 Granville Ct NE, Atlanta, GA 30328 (770) 352-0780
  • Sandy Springs, GA
  • Irvine, CA
  • 3703 Robinson Walk Ct, Marietta, GA 30068
  • Smyrna, GA
  • Costa Mesa, CA

Resumes

Resumes

Ilya Vitebskiy Photo 1

Principal Research Physicist At Afrl

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Position:
Principal Research Physicist at Air Force Research Lab
Location:
Dayton, Ohio Area
Industry:
Research
Work:
Air Force Research Lab since 2011
Principal Research Physicist
UC Irvine - Irvine Apr 2001 - Nov 2010
Researcher at the University of California
Education:
Donetsk National University
Ilya Vitebskiy Photo 2

Ilya Vitebskiy

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Ilya Vitebskiy
Managing
Vit Associates LLC
Research and Development · Management Consulting Services
702 Gabrielino Dr, Irvine, CA 92617

Publications

Us Patents

Unidirectional Gyrotropic Photonic Crystal And Applications For The Same

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US Patent:
6701048, Mar 2, 2004
Filed:
Apr 22, 2002
Appl. No.:
10/127649
Inventors:
Alexander Figotin - Irvine CA
Ilya Vitebskiy - Irvine CA
Assignee:
The Regents of the University of California - Oakland CA
International Classification:
G02B 600
US Classification:
385122, 385129, 385130, 385131, 385141
Abstract:
An unidirectional gyrotropic photonic crystal allows electromagnetic wave propagation in a certain direction at a certain frequency and, at the same time, impedes electromagnetic wave propagation in the opposite direction. The electromagnetic wave with impeded propagation, called the âfrozen modeâ, ideally has zero group velocity and does not transfer the electromagnetic energy. A unidirectional gyrotropic photonic crystal is a periodic composite, incorporating a component displaying Faraday rotation. The property of unidirectionality can be achieved in gyrotropic photonic crystals by proper choices of constituents and their space arrangement. The invention can be used to enhance the capability and performance of microwave, millimeter wave, and submillimeter wave antennas, delay lines, nonlinear and nonreciprocal elements. It can also be used in integrated microwave circuitry.

Random Number Generator Based On The Spontaneous Alpha-Decay

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US Patent:
6745217, Jun 1, 2004
Filed:
Apr 22, 2002
Appl. No.:
10/127221
Inventors:
Aleksandr Figotin - Irvine CA
Ilya Vitebskiy - Irvine CA
Vadim Popovich - Fresh Meadows NY
Gennady Stetsenko - Marrietta GA
Stanislav Molchanov - Matthews NC
Alexander Gordon - Weddington NC
Joseph Quinn - Charlotte NC
Nicholas Stavrakas - Charlotte NC
Assignee:
The Regents of the University of California - Oakland CA
The University of North Carolina at Charlotte - Charlotte NC
PDH International, Inc. - Hallandale FL
International Classification:
G06F 102
US Classification:
708250, 708255
Abstract:
The present invention is an apparatus and a method for generation of random numbers. The apparatus comprises an alpha-radiation source, such as Am 241, for which the decay product produces no secondary radiation with the energy equal or higher than that of the prime alpha radiation. The alpha particles emitted by the isotope and having reached the detector have a narrow energy spectrum and, hence, produce identical electrical pulses in a detector. An alpha-particle detection system is provided which includes a differential discriminator in combination with a logical selector. This combination of elements allows a positive identification of individual events of alpha-decay in the alpha-radiation source to be made and filters out any other signals produced by different radiation sources both inside and outside the apparatus. An electronic unit processes the stream of identical electric pulses into a stream of random numbers. The digital output of the physical random number generator will be completely free of correlations usually present in the output of other physical sources of random numbers and associated with: a) the physical source of randomness; b) the electronic circuitry; and c) outside and inside electromagnetic and other interference.

Systems And Methods For Transmitting Electromagnetic Energy In A Photonic Device

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US Patent:
7072555, Jul 4, 2006
Filed:
May 3, 2004
Appl. No.:
10/839117
Inventors:
Aleksandr Figotin - Irvine CA, US
Ilya Vitebskiy - Irvine CA, US
Assignee:
The Regents of the University of California - Oakland CA
International Classification:
G02B 6/10
US Classification:
385129, 385131
Abstract:
Systems and methods are provided that allow transmission of an electromagnetic wave in and through a periodic multilayered photonic device. The photonic device preferably is a periodic stack of plane-parallel layers with at least one them displaying dielectric anisotropy with a principle anisotropic axis forming an oblique angle with the normal to the layers. The wave obliquely incident on the surface of the device can be almost completely converted into an axially frozen mode characterized by a significantly increased amplitude, decreased group velocity normal to the incident surface and increased energy flux substantially tangential to the incident surface. The photonic device can be used in numerous applications over a wide range of frequencies up to and including the ultraviolet spectrum. The photonic device can be further configured with a deflection device which substantially increases the operational frequency range of the photonic device.

Photonic Devices Having Degenerate Spectral Band Edges And Methods Of Using The Same

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US Patent:
7881570, Feb 1, 2011
Filed:
Jan 26, 2006
Appl. No.:
11/720592
Inventors:
Aleksandr Figotin - Irvine CA, US
Ilya M. Vitebskiy - Irvine CA, US
Assignee:
The Regents of the University of California - Oakland CA
International Classification:
G02B 6/34
G02B 6/10
US Classification:
385 37, 385129
Abstract:
Provided herein are photonic devices configured to display photonic band gap structure with a degenerate band edge. Electromagnetic radiation incident upon these photonic devices can be converted into a frozen mode characterized by a significantly increased amplitude, as compared to that of the incident wave. The device can also be configured as a resonance cavity with a giant transmission band edge resonance. In an exemplary embodiment, the photonic device is a periodic layered structure with each unit cell comprising at least two anisotropic layers with misaligned anisotropy. The degenerate band edge at given frequency can be achieved by proper choice of the layers' thicknesses and the misalignment angle. In another embodiment, the photonic device is configured as a waveguide periodically modulated along its axis.

Photonic Devices Having Degenerate Spectral Band Edges And Methods For Using The Same

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US Patent:
8538211, Sep 17, 2013
Filed:
Feb 1, 2011
Appl. No.:
13/019121
Inventors:
Aleksandr Figotin - Irvine CA, US
Ilya M. Vitebskiy - Irvine CA, US
Assignee:
The Regents of The University of California - Oakland CA
International Classification:
G02B 6/34
G02B 6/10
G02B 6/00
US Classification:
385 37, 385122, 385129, 385131
Abstract:
Provided herein are photonic devices configured to display photonic band gap structure with a degenerate band edge. Electromagnetic radiation incident upon these photonic devices can be converted into a frozen mode characterized by a significantly increased amplitude, as compared to that of the incident wave. The device can also be configured as a resonance cavity with a giant transmission band edge resonance. In an exemplary embodiment, the photonic device is a periodic layered structure with each unit cell comprising at least two anisotropic layers with misaligned anisotropy. The degenerate band edge at given frequency can be achieved by paper choice of the layers' thicknesses and the misalignment angle. In another embodiment, the photonic device is configured as a waveguide periodically modulated along its axis.

Photonic Devices Having Degenerate Or Split Spectral Band Edges And Methods For Using The Same

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US Patent:
20090034924, Feb 5, 2009
Filed:
Jun 2, 2008
Appl. No.:
12/131897
Inventors:
Aleksandr Figotin - Irvine CA, US
Ilya M. Vitebskiy - Irvine CA, US
International Classification:
G02B 6/10
G02B 6/00
US Classification:
385122, 385129
Abstract:
Provided herein are photonic devices configured to display photonic band gap structure with a degenerate or a split band edge. Electromagnetic radiation incident upon these photonic devices can be converted into a frozen mode characterized by a significantly increased amplitude, as compared to that of the incident wave. The device can also be configured as a resonance cavity with a giant transmission band edge resonance. In an exemplary embodiment, the photonic device is a periodic layered structure with each unit cell comprising at least two anisotropic layers with misaligned anisotropy. The degenerate or split band edge at a given frequency can be achieved by proper choice of the layers' thicknesses and the misalignment angle. In another embodiment, the photonic device is configured as a waveguide periodically modulated along its axis.

Photonic Devices Having Degenerate Or Split Spectral Band Edges And Methods For Using The Same

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US Patent:
20120057819, Mar 8, 2012
Filed:
Nov 10, 2011
Appl. No.:
13/294132
Inventors:
Aleksandr Figotin - Irvine CA, US
Ilya M. Vitebskiy - Irvine CA, US
International Classification:
G02B 6/26
US Classification:
385 27
Abstract:
Provided herein are photonic devices configured to display photonic band gap structure with a degenerate or a split band edge. Electromagnetic radiation incident upon these photonic devices can be converted into a frozen mode characterized by a significantly increased amplitude, as compared to that of the incident wave. The device can also be configured as a resonance cavity with a giant transmission band edge resonance. In an exemplary embodiment, the photonic device is a periodic layered structure with each unit cell comprising at least two anisotropic layers with misaligned anisotropy. The degenerate or split band edge at a given frequency can be achieved by proper choice of the layers' thicknesses and the misalignment angle. In another embodiment, the photonic device is configured as a waveguide periodically modulated along its axis.

Random Number Generator Based On Directional Randomness Associated With Naturally Occurring Random Events, And Method Therefor

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US Patent:
59874830, Nov 16, 1999
Filed:
Jan 9, 1998
Appl. No.:
9/005089
Inventors:
Jamie Edelkind - Atlanta GA
Ilya M. Vitebskiy - Marietta GA
Alexander Figotin - Charlotte NC
Vadim Popovich - Marietta GA
Assignee:
Leybold Systems GmbH - Hanau
International Classification:
G06F 102
US Classification:
708250
Abstract:
A random number generator based on naturally occurring events in which directional randomness of radioactivity is exploited to generate a random number sequence. Radiation emissions from a radiation source are detected at different spatial locations about the radiation source. A unique numerical value is assigned to radiation detected at the different spatial locations. A random number sequence comprising numerical values is generated depending upon which spatial location radiation is detected.
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Ilya Mark Vitebskiy from Beavercreek, OH, age ~74 Get Report