Friday, November 14, 2014

NRL Optical Research Supported by Sotera

NRL Optical Sciences Division
searchers study quantum optics, laser physics, optical waveguide technologies, laser-matter interactions, atmospheric propagation, optical technology, holography, optical warfare, optical data processing, fiber-optic sensor systems, optical systems, optical materials, radiation damage studies, IR surveillance and missile seeker technologies, IR signature measurements, optical recording materials, and optical diagnostics techniques. Download the Optical Sciences section research articles here Optical_2010.pdf. - See more at: http://www.nrl.navy.mil/research/nrl-review/2010/optical-sciences/#sthash.oKjOB7d8.dpuf

Researchers study quantum optics, laser physics, optical waveguide technologies, laser-matter interactions, atmospheric propagation, optical technology, holography, optical warfare, optical data processing, fiber-optic sensor systems, optical systems, optical materials, radiation damage studies, IR surveillance and missile seeker technologies, IR signature measurements, optical recording materials, and optical diagnostics techniques. Download the Optical Sciences section research articles here Optical_2010.pdf. - See more at: http://www.nrl.navy.mil/research/nrl-review/2010/optical-sciences/#sthash.oKjOB7d8.dpuf

Sean Stackley (left), and
Dr. Delores Etter (right)
present the award to
Dr. Keith Williams (center),
NRL Researchers Recognized with Top Scientist and Engineer Awards - U.S. Naval Research Laboratory 08/20/2014
08/20/2014

Optical Sciences Division

Sean Stackley (left), Dr. Keith Williams and Dr. Delores Etter (right)Assistant Secretary of the Navy (Research, Development & Acquisition) Sean Stackley (left), and Dr. Delores Etter (right) present the award to Dr. Keith Williams (center), NRL Optical Sciences Division.
(Photo: U.S. Naval Research Laboratory)
Dr. Keith J. Williams is recognized for advancing the state of the art in RF photonics with the development of three new and emerging concepts for microwave systems. His research shows that these systems offer many advantages for the Navy and Department of Defense including high performance linear links for wideband electronic warfare applications, wideband nonlinear amplification concepts for electronic warfare and radar systems, and wideband transmit and receive antenna array beamforming systems. Dr. Williams has also demonstrated that these systems are very practical for Navy and Department of Defense use on a variety of platforms.
The three technologies that Dr. Williams has developed over the last year have great potential for the operational Navy and Department of Defense. After he achieved laboratory validation, Dr. Williams quickly realized that the technologies could directly impact the performance of operational systems in several of the most challenging scenarios that they face. Earlier attempts to solve these problems with extensions of existing technology have been grossly inadequate, thus demanding new and innovative solutions. All three of Dr. Williams' accomplishments have been judged to be breakthroughs, and all are presently in the stages of development for transition to deployed systems.
- See more at: http://www.nrl.navy.mil/media/news-releases/2014/nrl-researchers-recognized-with-top-scientist-and-engineer-awards#sthash.oiKPTBYv.dpuf
Dr. Keith J. Williams is recognized for advancing the state of the art in RF photonics with the development of three new and emerging concepts for microwave systems. His research shows that these systems offer many advantages for the Navy and Department of Defense
  • including high performance linear links for wideband electronic warfare applications,
  • wideband nonlinear amplification concepts for electronic warfare and radar systems, and
  • wideband transmit and receive antenna array beamforming systems.

    Dr. Williams has also demonstrated that these systems are very practical for Navy and Department of Defense use on a variety of platforms.
A. James Clark School of Engineering, University of Maryland
Keith J. Williams received the B.S. degree, cum laude, in electrical engineering in 1987 from the University of Nebraska, Lincoln, NE. He received the M.S. and Ph.D. degrees in electrical engineering from the University of Maryland, College Park, MD, in 1989 and 1994, respectively.
His doctoral dissertation research was conducted in the area of microwave p-i-n photodetector nonlinearities. In 1987 he joined the Optical Techniques Branch of the Naval Research Laboratory, Washington, DC, where his research interests include characterization and performance of microwave-optical devices, microwave fiber-optic links and systems, high-speed optoelectronics, new concepts for solving microwave related problems with fiber-optic solutions, and high current photodiodes. He is currently head of the Photonics Technology Branch at NRL, which includes research in microwave photonics, optical communications, laser and amplifier development, and information technology.

Sotera & NRL Optical Research Results

Optically activated core flow shifting within a focused flow
Compact directional acoustic sensor using a multi-fiber optical probe
Chemically functionalized graphene for bipolar electronics

NRL - Sotera Optical Research Contracts

Optical Techniques, Devices, and Measurements Support - N00173-14-R-RE01 - Federal Business Opportunities: Opportunities

: N00173-14-R-RE01
: Award Notice
:July 21, 2014
:N00173-14-D-2024
: $6,354,723.00
: Sotera Defense Solutions, Inc.
: Naval Reseach Laboratory
: Constance Reedus, Contract Specialist constance.reedus@nrl.navy.mil
The objective of this requirement is to conduct research, both theoretical  and experimental, to conceive, design, fabricate, and characterize  optical and opto-electronic materials, phenomena, devices, sensors and systems based on them which are the subject of certain key research projects at the Naval Research Laboratory, Washington D.C.

These research efforts will include a number of inter-related tasks that vary in both their scientific dimensions and deliverable products.  However, several tasks may support the same mission and must be coordinated or interfaced.  Many of the experimental equipment items and facilities necessary to carry out these tasks are unique to NRL, which dictates that a major portion of the tasks be performed at NRL.  

The research topics  for these tasks include

  • fiber optic sensors for acoustic, seismic, electric and magnetic fields,
  • fiber optic sensors for strains and damage in structures;
  • other optically based sensors for chemicals (both agent and non-agent), biological materials, and explosives;
  • microwave photonics for electronic warfare, radar and communication links;
  • multi component polymers for optical, electronic, and mechanical applications;
  • novel infrared optical materials;
  • optical emitters;
  • high speed photo detectors;
  • focal plane arrays; and
  • quantum optics. 
Work will involve integration of components and subsystems and Navy platforms.  In many of these programs, emphasis will be placed on signal processing, as well as sensor development.
Optical Techniques, Devices, and Measurements (Classified) - N00173-14-R-AT01 - Federal Business Opportunities: Opportunities
: N00173-14-R-AT01
: Award
: July 21, 2014
: N00173-14-D-2023
: $46,760,070
: Sotera Defense Solutions, Inc.
  The Naval Research Laboratory (NRL) Optical Sciences  Division carries out a variety of research and development activities focused on the invention, investigation, and development of new concepts for generating, transforming, modulating, and detecting electromagnetic energy spanning the ultraviolet through long wavelength infrared spectral regions.  These concepts form the basis for new materials and devices,  new sensors, new communications links, and new processing methods that will provide the Navy/DoD with enhanced capability for  situational awareness, target detection, communications, defense of personnel and platforms, and other Navy/DoD applications.
Global Strategies Group awarded $10M Naval Research Laboratory contract | Sotera Defense

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