SBIR-STTR Award

Radiation-Tolerant Vertical-Cavity Amplifying Detectors for Time-of-Flight Laser Rangefinders
Award last edited on: 11/5/2024

Sponsored Program
SBIR
Awarding Agency
NASA : JPL
Total Award Amount
$99,981
Award Phase
1
Solicitation Topic Code
S1.04
Principal Investigator
Timothy Strand

Company Information

FLIR Electro-Optical Components LLC (AKA: Aerius Photonics LLC ~ FLIR EOC LLC)

2223 Eastman Avenue Suite B
Ventura, CA 93003
   (805) 642-4645
   N/A
   www.aeriusphotonics.com
Location: Single
Congr. District: 26
County: Ventura

Phase I

Contract Number: NNX11CF29P
Start Date: 2/18/2011    Completed: 9/29/2011
Phase I year
2011
Phase I Amount
$99,981
The harsh radiation environment anticipated during the Europa Jupiter System Mission (EJSM) presents a significant challenge to develop radiation-hardened notional instruments. A high-performance, radiation-tolerant detector is required for the time-of-flight laser altimeter system on the Jupiter Europa Orbiter (JEO), which will perform critical characterization of Europa's topography, ocean tides, and ice shelf. Avalanche photodiodes (APDs) are conventionally chosen as detectors for standard laser altimeter systems. However, the performance of APDs degrades significantly after exposure to high levels of radiation. Aerius Photonics proposes to develop a novel radiation-tolerant detector that is suitable for use in space-based laser-altimeter systems by integrating a Vertical-Cavity Semiconductor Optical Amplifier (VCSOA) with a PIN photodetector. The resulting device, known as a Vertical-Cavity Amplifying Detector (VCAD), is expected to provide high-gain, high-speed, low-noise detection and demonstrate significant improvements in radiation tolerance over APDs. The optical preamplification provided by the VCSOA, along with its operation as a forward-biased majority-carrier device, renders the VCAD system insensitive to radiation-induced increases in detector dark current noise and receiver electronics noise. The VCAD is also expected to be significantly less susceptible to single event transients (SETs) than an APD. Aerius Photonics has expertise in VCSOA development and has already demonstrated basic radiation tolerance of VCSOAs to 300 krad with gamma radiation and to 300 krad with 63 MeV protons. In Phase I of this program, Aerius will design, fabricate and characterize VCADs that have been exposed to a more comprehensive radiation test plan that will include conditions anticipated on the EJSM. Anticipated

Benefits:
Aerius Photonics anticipates additional applications in both the military and civilian sectors. The Department of Defense has strong interest in radiation-tolerant receivers for persistent surveillance and secure communications between satellites. Commercial satellites also require radiation-tolerant receivers for many applications such as on-board optical networking and inter-satellite optical communications. Aerius Photonics has strong working relationships with prime suppliers such as The Boeing Company, Lockheed Martin, Northrop Grumman, BAE Systems, and Raytheon. Discussions will take place with all these as potential customers for the VCAD product. Aerius Photonics anticipates applications in laser altimetry, terrain mapping, and other range-finding applications to be used in the Europa-Jupiter System Mission (EJSM) as well as other planetary science programs such as the International Lunar Network (ILN) and Outer Planets Flagship. Additional potential applications include intra-satellite optical networks and inter-satellite optical communications.

Phase II

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Start Date: 00/00/00    Completed: 00/00/00
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