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Dmitri A Kossakovski

from La Crescenta, CA
Age ~54
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Also known as:
Demitri Kossakovski, Dimitri Kossakovski, Tr O
Phone and address:
4630 Rosemont Ave, Glendale, CA 91214
(818) 275-3869
Related to:
Fedor Dmitriyevich Kossakovski, 30Olga B Shapovalova, 53Natelie K Kossakovski, 83
Connected to:
Theodore C Kossakowski, 54Kelly M Kossar, 38Urszula A Kossarska, 46Mafo Y Kosseh, 45Horst K Kossel, 91Karl F Kossel, 59Tonya Kossel, 47Amara Kossen, 33Karl J Kossen, 50Faouzi Kossentini, 58

Dmitri Kossakovski Phones & Addresses

  • 4630 Rosemont Ave, La Crescenta, CA 91214 (818) 275-3869
  • 2042 Pine St, South Pasadena, CA 91030 (626) 441-7663
  • Green Valley Lake, CA
  • Pasadena, CA
  • San Bernardino, CA
  • Los Angeles, CA

Work

Company: Zt plus (subsidiary of amerigon inc.) Apr 2010 Position: Managing director

Education

Degree: Certificate School / High School: California Institute of Technology 1995 to 1999 Specialities: Engineering Management Program

Skills

R&D • Materials Science • Nanotechnology • Commercialization • Semiconductors • Spectroscopy • Energy • Russian • Medical Imaging • Making Things Happen • Laser • Licensing • Instrumentation • Adding Skills

Industries

Consumer Electronics

Resumes

Resumes

Dmitri Kossakovski Photo 1

Vice President Product Development

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Location:
4630 Rosemont Ave, La Crescenta, CA 91214
Industry:
Consumer Electronics
Work:
ZT Plus (subsidiary of Amerigon Inc.) since Apr 2010
Managing Director
Snapshot Spectra - imaging spectroscopy for the masses since Jun 2007
Independent Director
ZT Plus Aug 2009 - Apr 2010
Director, Research and Development
BSST LLC. Jul 2008 - Aug 2009
Director, Emerging Materials
BSST LLC. May 2006 - Jul 2008
Technical Program Manager
Education:
California Institute of Technology 1995 - 1999
Certificate, Engineering Management Program California Institute of Technology 1994 - 1999
Ph.D., Physical ChemistryPh.D. advisors: Prof. J.L.Beauchamp, J.D.Baldeschwieler Moskovskij Fiziko-Tehniceskij Institut (Gosudarstvennyj Universitet) 1987 - 1993
M.Sc., Biophysics 91 1984 - 1987
Claremont Graduate University - Peter F. Drucker and Masatoshi Ito Graduate School of Management
Skills:
R&D
Materials Science
Nanotechnology
Commercialization
Semiconductors
Spectroscopy
Energy
Russian
Medical Imaging
Making Things Happen
Laser
Licensing
Instrumentation
Adding Skills

Publications

Us Patents

Method And Apparatus For Chemical And Topographical Microanalysis

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US Patent:
6466309, Oct 15, 2002
Filed:
Feb 22, 2000
Appl. No.:
09/511616
Inventors:
Dmitri A. Kossakovski - Pasadena CA
John D. Baldeschwieler - Pasadena CA
Jesse L. Beauchamp - La Canada CA
Assignee:
California Institute of Technology - Pasadena CA
International Classification:
G01B 1124
US Classification:
356 73, 356318
Abstract:
A scanning probe microscope is combined with a laser induced breakdown spectrometer to provide spatially resolved chemical analysis of the surface correlated with the surface topography. Topographical analysis is achieved by scanning a sharp probe across the sample at constant distance from the surface. Chemical analysis is achieved by the means of laser induced breakdown spectroscopy by delivering pulsed laser radiation to the sample surface through the same sharp probe, and consequent collection and analysis of emission spectra from plasma generated on the sample by the laser radiation. The method comprises performing microtopographical analysis of the sample with a scanning probe, selecting a scanned topological site on the sample, generating a plasma plume at the selected scanned topological site, and measuring a spectrum of optical emission from the plasma at the selected scanned topological site. The apparatus comprises a scanning probe, a pulsed laser optically coupled to the probe, an optical spectrometer, and a controller coupled to the scanner, laser and spectrometer for controlling the operation of the scanner, laser and spectrometer. The probe and scanner are used for topographical profiling the sample.

Apparatus And Method For Coupling Light Between An Optical Resonator And A Semiconductor Chip With A Minimum Number Of Components And Alignment Steps

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US Patent:
6853479, Feb 8, 2005
Filed:
Aug 30, 2002
Appl. No.:
10/231860
Inventors:
Vladimir S. Ilchenko - La Canada CA, US
Dmitri Kossakovski - South Pasadena CA, US
Kouros Sariri - Encino CA, US
Assignee:
OEwaves, Inc. - Pasadena CA
International Classification:
H01S003/00
US Classification:
3593375
Abstract:
A system includes an electro-absorptive modulator having opposing surfaces, a first semiconductor optical amplifier having opposing surfaces, a photodetector having opposing surfaces, a second semiconductor optical amplifier having opposing surfaces, a microwave link, and an optical resonator. One of the opposing surfaces of the first semiconductor optical amplifier is coupled to one of the opposing surfaces of the electro-absorptive modulator. One of the opposing surfaces of the second semiconductor optical amplifier is coupled to one of the opposing surfaces of the photodetector. The microwave link is coupled between the photodetector and the electro-absorptive modulator. The optical resonator is for coupling evanescent components of light propagated between the first semiconductor optical amplifier and the second semiconductor optical amplifier.

Film Spacer For Setting The Gap Between An Optical Coupler And A Whispering-Gallery Mode Optical Resonator

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US Patent:
6879752, Apr 12, 2005
Filed:
Apr 3, 2002
Appl. No.:
10/116643
Inventors:
Vladimir Ilchenko - La Canada CA, US
Dmitri Kossakovski - South Pasadena CA, US
Assignee:
OEwaves, Inc. - Pasadena CA
International Classification:
G02B006/26
G02B006/42
US Classification:
385 30
Abstract:
This application teaches systems and techniques that use an optical coupler and a film for evanescently coupling light to or from an optical or electro-optical device. The film is connected to the coupler surface as a spacer for setting the distance between the optical coupler and the optical or electro-optical device.

Coupled And Non-Coupled Opto-Electronic Oscillators With Enhanced Performance

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US Patent:
7369722, May 6, 2008
Filed:
Mar 17, 2006
Appl. No.:
11/384002
Inventors:
Ismail Tolga Yilmaz - Oviedo FL, US
Danny Eliyahu - Pasadena CA, US
Dmitri A. Kossakovski - South Pasadena CA, US
Assignee:
OEwaves, Inc. - Pasadena CA
International Classification:
G02B 6/26
US Classification:
385 27, 385 1
Abstract:
This application describes coupled and non-coupled opto-electronic oscillators with enhanced performance. Coupled OEOs implement a dispersion compensation mechanism to reduce dispersion-induced optical loss, a polarization control mechanism to reduce polarization-dependent optical loss, or a combination of the dispersion compensation mechanism and the polarization control mechanism to enhance the oscillator performance.

Integrated Opto-Electronic Oscillators

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US Patent:
7480425, Jan 20, 2009
Filed:
Jun 4, 2007
Appl. No.:
11/757936
Inventors:
Deana Gunn - Encinitas CA, US
Nikolai Morozov - Orinda CA, US
Vladimir Ilchenko - Arcadia CA, US
Dmitri A. Kossakovski - South Pasadena CA, US
Mark Henderson - LaVerne CA, US
Assignee:
OEwaves, Inc. - Pasadena CA
International Classification:
G02F 1/035
US Classification:
385 2, 385 14, 385 37
Abstract:
Integrated opto-electronic oscillators that use micro resonators in the optical section of the opto-electronic feedback loop.

Method And Apparatus For Distributed Sensing Of Volatiles Using A Long Period Fiber Grating Sensor With Modulated Plastic Coating For Environmental Monitoring

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US Patent:
7651862, Jan 26, 2010
Filed:
Feb 26, 2002
Appl. No.:
10/469216
Inventors:
Adrian Ponce - Altadena CA, US
Dmitri A. Kossakovski - Pasadena CA, US
Gregory H. Bearman - Pasadena CA, US
Assignee:
California Institute of Technology - Pasadena CA
International Classification:
G01N 21/17
G01N 21/84
G02B 6/10
US Classification:
436164, 25022716, 385 12, 385 13, 422 8205, 422 8209, 422 8211
Abstract:
Optical time domain reflectometry caused by absorption of a volatile or analyte into the fiber optic cladding is used an optical nose. The fiber optics () are covered with a gas permeable film () which is patterned to leave millimeter wide gas permeable notches (-). The notches contain a sensing polymer that responds to different gases by expanding or contracting.

System And Method For Sensing Position Utilizing An Uncalibrated Surface

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US Patent:
7763875, Jul 27, 2010
Filed:
Sep 7, 2006
Appl. No.:
11/517862
Inventors:
Nikolai L. Romanov - Oak Park CA, US
Dmitri A. Kossakovski - South Pasadena CA, US
International Classification:
G01N 21/86
H01L 27/00
US Classification:
25055929, 2502081
Abstract:
Systems and methods adapted for use with uncalibrated patterned surfaces for sensing any of position, displacement, velocity, acceleration, area, and volume are provided. A system includes a memory, processing electronics, and at least one readhead adapted to move relative to the surface and including a radiation source, lens, and an optical array transducer. One aspect includes generating a mapping data set representative of an intensity map of the patterned surface. Another aspect provides a variable travel speed readhead. Other aspects include multiple readheads adapted to travel in concert. Incremental and absolute sensing are provided, including systems having sub-pixel spatial resolution.

Composite Thermoelectric Materials And Method Of Manufacture

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US Patent:
20080289677, Nov 27, 2008
Filed:
May 21, 2008
Appl. No.:
12/124559
Inventors:
Lon E. Bell - Altadena CA, US
Dmitri Kossakovski - South Pasadena CA, US
Assignee:
BSST LLC - Irwindale CA
International Classification:
H01L 35/02
H01L 35/34
US Classification:
1362361, 136201, 438 54, 252 623 T, 252500
Abstract:
The present disclosure describes a improved composite thermoelectric and an accompanying method. In accordance with one embodiment of the invention, the thermoelectric is constructed in layers from a perform of a stack of layers, and then treated or otherwise modified in order to create a thinner thermoelectric structure.
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Dmitri A Kossakovski from La Crescenta, CA, age ~54 Get Report