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Princeton Infrared Technologies, Inc. (PIRT) is focused on supplying Shortwave Infrared detectors to both the commercial and defense markets. PIRT is a fabless semiconductor company focusing on design and integration. Shortwave Infrared (SWIR) Imaging using lattice matched InGaAs provides some of the lowest noise imaging material for imaging in the SWIR. Princeton Infrared Technologies, Inc. (PIRT) has detectors that image from 0.5 to 1.7µm, which are useful for a variety of commercial and defense applications. These include detecting moisture, determining plastic types, plant health, fill level, as well as imaging lasers. We sell these imagers by themselves, in packages, as well as in complete camera systems both 1D linear arrays and 2D area cameras up to 1.3Mpixles.

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Princeton Infrared Technologies Selected by Space Development Agency To Develop A Room Temperature 3-12µm Imaging System Using Non-Degenerate Two-Photon Absorption

POSTED 09/24/2024

Princeton Infrared Technologies Selected by Space Development Agency To Develop A Room Temperature 3-12µm Imaging System Using Non-Degenerate Two-Photon Absorption

MONMOUTH JUNCTION, NJ – SEPTEMBER 24, 2024 – Princeton Infrared Technologies, Inc. (PIRT), global experts and innovators in indium gallium arsenide (InGaAs) imaging technology, announces it has been selected by the Space Development Agency (SDA) for a Phase II SBIR contract focused on the development of uncooled MWIR and LWIR imaging using custom InGaAs detector array based on non-degenerate two photon absorption (NTA) technology.

PIRT, along with team members from the University of California Irvine (UCI), will develop a room temperature imaging system with detectivity from 3 to 12µm spanning mid-wave infrared (MWIR) and longwave infrared (LWIR) spectral ranges using NTA for standoff imaging spectroscopy and ranging. This novel detection strategy was recently discovered at UC Irvine and allows the detection of infrared light using nonlinear optical effects directly on a large bandgap semiconductor chip. The technology overcomes many fundamental hurdles in MWIR/LWIR detection.

In this program, the team will deliver a 1280x1024 resolution camera using a custom InxAl1-x-yGayAs array integrated with specialty wide spectral optics. In partnership with UC Irvine team, the system will be used to demonstrate video rate imaging across three spectral octaves in infrared region (3 to 12 µm), specifically standoff hyperspectral imaging of cold or hot objects without the imaging disruption from object’s emissions in this wavelength band. Moreover, using inherent gated detection nature of the NTA process, the joint team will demonstrate volumetric chemical imaging in massively parallel wide field fashion.


 

Martin Ettenberg, Founder & CTO of Princeton Infrared Technologies, notes, “Winning the contract from the Space Development Agency to develop an imager using two-photon absorption is not just a victory for our expertise, but a testament to our commitment to unlocking new dimensions of this technology. This partnership with UCI and the Space Development Agency launches us into a new era of space imaging. This technology has incredible implications for not just imaging in space but in many commercial applications down here on earth.”