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Robert S Rogowski

from Odenton, MD
Deceased
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Also known as:
Robert Dr Rogowski, Robert Rd Rogowski, Robert F Rogowski, Robert I, Robert Rogowsk, Bob Rogowski, Rob Rogowski, Roger Rogowski
Phone and address:
2646 Didelphis Dr, Odenton, MD 21113
(443) 458-2242
Related to:
Shannon L Rogowski, 38
Connected to:
Adam Rogowski, 48Alison L Rogowski, 43Amy L Rogowski, 55Anthony G Rogowski, 48Ben A Rogowski, 39Brigitte P Rogowski, 66Cheri J Rogowsky, 71Cheryl K Rogowski, 63Darla L Rogowski, 55David A Rogowski, 73

Robert Rogowski Phones & Addresses

  • 2646 Didelphis Dr, Odenton, MD 21113 (443) 458-2242
  • Williamsburg, VA
  • Baltimore, MD
  • 14 Clemetis Ct, Owings Mills, MD 21117 (443) 379-0747
  • Hampton, VA
  • Yorktown, VA
  • Warwick, RI
  • Newport News, VA
  • Hampstead, MD
  • 9405 Hannahs Mill Dr APT 404, Owings Mills, MD 21117 (410) 205-7643

Work

Company: Aerotek inc May 2013 Position: Whitemarsh, md

Education

School / High School: Old Dominion University- Norfolk, VA 1984 Specialities: Bachelors of Science in Chemistry

Resumes

Resumes

Robert Rogowski Photo 1

Robert Rogowski

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Location:
9405 Hannahs Mill Dr, Owings Mills, MD 21117
Industry:
Hospital & Health Care
Work:
Aerotek May 2013 - Jun 2013
Hplc Chemist
Pii (Pharmaceutics International, Inc.). May 2013 - Jun 2013
Education:
Old Dominion University 1980 - 1984
Bachelors, Bachelor of Science, Chemistry
Languages:
English
Robert Rogowski Photo 2

Robert Rogowski

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Robert Rogowski Photo 3

Robert Rogowski

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Robert Rogowski Photo 4

Robert Rogowski

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Location:
United States
Robert Rogowski Photo 5

Robert Rogowski Odenton, MD

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Work:
Aerotek Inc

May 2013 to 2000
Whitemarsh, MD
Mindlance Inc., Staffing Agency
Hoboken, NJ
Jul 2011 to Feb 2012
Johns Hopkins University School of Medicine
Baltimore, MD
Mar 2010 to Mar 2011
RESEARCH SPECIALIST
University of Maryland School of Medicine
Baltimore, MD
2005 to 2009
SENIOR RESEARCH SPECIALIST
NASA Langley Research Center
Hampton, VA
2002 to 2005
CHEMICAL ENGINEER
Brown University School of Medicine
Providence, RI
1998 to 2002
RESEARCH SPECIALIST
University of Maryland School of Medicine
Baltimore, MD
1987 to 1997
RESEARCH SPECIALIST
Education:
Old Dominion University
Norfolk, VA
1984
Bachelors of Science in Chemistry

Publications

Wikipedia

Ole Anders

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Alan Robert Rogowski (born September 22, 1942), better known by his ring name of Ole Anderson, is a retired professional wrestler and a promoter. He held ...

Us Patents

Strain Insensitive Optical Phase Locked Loop

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US Patent:
57808449, Jul 14, 1998
Filed:
Apr 23, 1996
Appl. No.:
8/644655
Inventors:
Claudio O. Egalon - Hampton VA
Robert S. Rogowski - Yorktown VA
Assignee:
The United States of America as represented by the Administrator of the
National Aeronautics and Space Administration - Washington DC
International Classification:
G01B 530
G02B 616
US Classification:
25022714
Abstract:
A strain sensor uses optical fibers including strain insensitive portions and a strain sensitive portion. The optical fibers form a sensitive arm of an optical phase locked loop (OPLL). The use of the OPLL allows for multimode optical fiber to be used in a strain insensitive configuration. Only strain information for the strain sensitive portion is monitored rather than the integrated strain measurements commonly made with optical fiber sensors.

Optical Fibers And Fluorosensors Having Improved Power Efficiency And Methods Of Producing Same

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US Patent:
52626385, Nov 16, 1993
Filed:
Sep 16, 1991
Appl. No.:
7/761198
Inventors:
Claudio O. Egalon - Hampton VA
Robert S. Rogowski - Hampton VA
Assignee:
The United States of America as represented by the United States
National Aeronautics and Space Administration - Washington DC
International Classification:
G01N 2100
US Classification:
25022714
Abstract:
An optical fiber fluorosensor is provided having a portion of a fiber core which is surrounded by an active cladding which is permeable by the analyte to be sensed and containing substances which emit light waves upon excitation. A remaining portion of the fiber core is surrounded by a guide cladding which guides these light waves to a sensor which detects the intensity of waves, which is a function of the analyte concentration. Contrary to conventional weakly guiding principles, the difference between the respective indices of refraction of the fiber core and the cladding is greater than approximately 0. 01. In an alternative embodiment, the fiber core is surrounded by an active cladding which is thin enough such that its index of refraction is effectively that of the surrounding atmosphere, whereby the atmosphere guides the injected light throughout the fiber core.

Thermoluminescent Aerosol Analysis

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US Patent:
40626504, Dec 13, 1977
Filed:
Dec 29, 1976
Appl. No.:
5/755310
Inventors:
Robert S. Rogowski - Hampton VA
Edward R. Long - Hampton VA
Assignee:
The United States of America as represented by the United States
National Aeronautics and Space Administration - Washington DC
International Classification:
G01N 2500
G01N 2762
US Classification:
23232E
Abstract:
A method for detecting and measuring trace amounts of aerosols when reacted with ozone in a gaseous environment wherein a sample aerosol is exposed to a fixed ozone concentration for a fixed period of time, a fluorescer added to the exposed sample and thereafter the sample heated in a 30. degree. C/minute linear temperature profile to 200. degree. C. undergoes thermoluminescence the trace peak thereof is measured and recorded as a function of the test aerosol and wherein the recorded thermoluminescence trace peak of the fluorescer is specific to the aerosol being tested.

Optical Fiber Strain Sensor With Improved Linearity Range

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US Patent:
53814932, Jan 10, 1995
Filed:
Dec 21, 1992
Appl. No.:
8/223931
Inventors:
Claudio O. Egalon - Hampton VA
Robert S. Rogowski - Hampton VA
Assignee:
The United States of America as represented by the Administrator of the
National Aeronautics and Space Administration - Washington DC
International Classification:
G02B 616
US Classification:
385 13
Abstract:
A strain sensor is constructed from a two mode optical fiber. When the optical fiber is surface mounted in a straight line and the object to which the optical fiber is mounted is subjected to strain within a predetermined range, the light intensity of any point at the output of the optical fiber will have a linear relationship to strain, provided the following equation is less than 0. 17 radians ##EQU1## where n. sub. co represents the refractive index of the core, k represents the wavenumber of the light, L represents the length of the optical fiber, S. sub. 1 represents axial strain, V is ##EQU2## U is a solution to the eigenvalue equation of the optical fiber, v. sub. f represents the Poisson ratio, P. sub. ef represents the effective strain-optic coefficient of the optical fiber and n. sub. ln represents ##EQU3## where K. sub.

Optical Fiber Sensor Having An Active Core

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US Patent:
52492516, Sep 28, 1993
Filed:
Mar 18, 1992
Appl. No.:
7/855363
Inventors:
Claudio O. Egalon - Hampton VA
Robert S. Rogowski - Hampton VA
Assignee:
The United States of America as represented by the Administrator of the
National Aeronautics and Space Administration - Washington DC
International Classification:
G02B 616
G02B 622
US Classification:
385123
Abstract:
An optical fiber is provided comprising an active fiber core which produces waves of light upon excitation. A factor ka is identified and increased until a desired improvement in power efficiency is obtained. The variable "a" is the radius of the active fiber core and "k" is defined as 2. pi. lambda. , wherein. lambda. is the wavelength of the light produced by the active fiber core. In one embodiment, the factor ka is increased until the power efficiency stabilizes. In addition to a bare fiber core embodiment, a two-stage fluorescent fiber is provided wherein an active cladding surrounds a portion of the active fiber core having an improved ka factor. The power efficiency of the embodiment is further improved by increasing a difference between the respective indices of refraction of the active cladding and the active fiber core.

Radio Frequency Strain Monitor

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US Patent:
48433462, Jun 27, 1989
Filed:
Jun 7, 1988
Appl. No.:
7/203177
Inventors:
Joseph S. Heyman - Williamsburg VA
Robert S. Rogowski - Hampton VA
Milford S. Holben - Williamsburg VA
Assignee:
Administrator, National Aeronautics and Space Administration - Washington DC
International Classification:
G01N 2700
US Classification:
331 65
Abstract:
A radio frequency strain monitor includes a voltage controlled oscillator for generating an oscillating signal that is input into a propagation path. The propagation path is preferably bonded to the surface of a structure to be monitored and produces a propagated signal. A phase difference between the oscillating and propagated signals is detected and maintained at a substantially constant value which is preferably a multiple of 90. degree. by changing the frequency of the oscillating signal. Any change in frequency of the oscillating signal provides an indication of strain in the structure to which the propagation path is bonded.

Method For Detecting Pollutants

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US Patent:
39778312, Aug 31, 1976
Filed:
Dec 30, 1974
Appl. No.:
5/537480
Inventors:
James C. Administrator of the National Aeronautics and Space Fletcher
Robert S. Rogowski - Hampton VA
Ralph R. Richards - Greenville IL
Edmund J. Conway - Newport News VA
International Classification:
G01N 2500
G01N 2762
US Classification:
23232E
Abstract:
A method for detecting and measuring trace amounts of pollutants of the group consisting of ozone, nitrogen dioxide and carbon monoxide in a gaseous environment wherein a sample organic solid material that will undergo a chemical reaction with the test pollutant is exposed to the test environment and thereafter, when heated in the temperature range of 100. degree. -200. degree. C. , undergoes chemiluminescence that is measured and recorded as a function of concentration of the test pollutant and wherein the chemiluminescence of the solid organic material is specific to the pollutant being tested.

Transversely Polarized Source Cladding For An Optical Fiber

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US Patent:
53435508, Aug 30, 1994
Filed:
Feb 25, 1993
Appl. No.:
8/022582
Inventors:
Claudio O. Egalon - Hampton VA
Robert S. Rogowski - Hampton VA
Assignee:
The United States of America as represented by the United States
National Aeronautics and Space Administration - Washington DC
International Classification:
G02B 616
US Classification:
385123
Abstract:
An optical fiber comprising a fiber core having a longitudinal symmetry axis is provided. An active cladding surrounds a portion of the fiber core and comprises light-producing sources which emit light in response to chemical or light excitation. The cladding sources are oriented traversely with respect to the longitudinal axis of the fiber core. This polarization results in a superior power efficiency compared to active cladding sources that are randomly polarized or longitudinally polarized parallel with the longitudinal symmetry axis.

Isbn (Books And Publications)

Fiber Optic Smart Structures and Skins V: 8-9 September 1992 Boston, Massachusetts

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Author

Robert S. Rogowski

ISBN #

0819409774

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Robert S Rogowski from Odenton, MDDeceased Get Report