Qmagiq, LLC

22 Cotton Road Array
Nashua, NH 03063
http://www.qmagiq.com
8 Employees

SBIR Award Summary

Total Number of Awards 45
Total Value of Awards $17.2MM
First Award Date 03/15/05
Most Recent Award Date 09/12/16

Key Personnel

Last Name Name Awards Contact
Reisinger Dr. Axel Reisinger 9 Message
Sundaram Dr. Mani F. Sundaram 51 Message

45 Awards Won

Phase 1 STTR

Institution: Virginia Polytechnic Institute

Agency: Army
Topic: A16A-T009
Budget: 09/12/16 - 02/26/17

Bulk InAs(x)Sb(1-x) is an infrared detector material that promises higher quantum efficiency than antimony-based superlattices in the longwave infrared (LWIR). This is due to the longer diffusion length of minority carrier holes in the bulk than in superlattices where they are localized. No native substrate exists for lattice-matched growth of...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: S1.03
Budget: 06/10/16 - 12/10/16

Earth observing missions like NASA's LANDSAT Data Continuity Mission - Thermal Infrared Sensor (LDCM-TIRS) require greater spatial resolution of the earth than the ~ 100m provided by the current instrument. Improving resolution to the desired ~ 30m requires increasing the number of pixels on target from the current 640x3 to ~ 2048x3. The TIRS ...

Phase 2 SBIR

Agency: National Aeronautics and Space Administration
Topic: S1.03
Budget: 04/15/16 - 04/14/18

We propose to develop antimony-based focal plane arrays (FPAs) for NASA's imaging and spectroscopy applications in the spectral band from visible to shortwave-infrared (SWIR), viz. wavelengths from 0.5 - 2.5 microns. We will leverage recent breakthroughs in the performance of midwave and longwave infrared FPAs based on the InAs/GaSb/AlSb materia...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: S1.03
Budget: 06/17/15 - 12/17/15

We propose to develop antimony-based focal plane arrays (FPAs) for NASA's imaging and spectroscopy applications in the spectral band from visible to shortwave-infrared, viz. wavelengths from 0.5 - 2.5 microns. We will leverage recent breakthroughs in the performance of midwave and longwave infrared FPAs based on the InAs/GaSb/AlSb material syst...

Phase 2 SBIR

Agency: National Aeronautics and Space Administration
Topic: S1.03
Budget: 05/19/15 - 05/18/17

Infrared focal plane arrays (FPAs) based on Type-II strained layer superlattice (SLS) photodiodes have recently experienced significant advances. In Phase I we developed and delivered to NASA a 320x256 DUALBAND FPA integrated in a dewar cooler assembly (IDCA) that produces simultaneous and spatially-registered imagery in two spectral bands, name...

Phase 2 STTR

Institution: MIT Lincoln Labs

Agency: Army
Topic: A13A-T014
Budget: 01/01/15 - 12/31/15

QmagiQ and MIT-LL will partner to develop a high-performance very longwave infrared digital focal plane array (VLWIR DFPA) suitable for hyperspectral imaging applications. The DFPA will be based on Type-II antimony-based strained layer superlattice (SLS) photodiodes with > 13 micron cutoff, hybridized to a digital readout integrated circuit (...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: 14-1-S1.03
Budget: 01/01/14 - 12/31/14

Dualband focal plane arrays (FPAs) based on gallium-free Type-II strained layer superlattice (SLS) photodiodes have recently experienced significant advances. We propose to develop a new class of devices capable of producing simultaneous and spatially-registered images in two spectral bands, namely, a fire channel in the 3 to 5 micron window an...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA14-021
Budget: 01/01/14 - 12/31/14

We propose to bandgap-engineer the antimony-based Group III-V compound semiconductor material system to realize a dualband focal plane array (FPA) made up of stacked multi-barrier Type-II strained layer superlattice (SLS) photodiodes. Two longwave infrared (LWIR) spectral bands will be imaged in alternate frames by using a readout multiplexer t...

Phase 2 STTR

Institution: MIT Lincoln Labs

Agency: Missile Defense Agency
Topic: MDA12-T003
Budget: 12/24/13 - 12/26/15

We propose to combine QmagiQ's strained layer superlattice (SLS) sensor technology with MIT Lincoln Laboratory's novel digital pixel readout integrated circuit (DROIC) to realize an advanced longwave infrared digital focal plane array (DFPA) with high quantum efficiency, dynamic range, and operating temperature. In Phase I, we developed the basi...

Phase 1 STTR

Institution: MIT Lincoln Labs

Agency: Army
Topic: A13A-T014
Budget: 09/27/13 - 03/31/14

QmagiQ and MIT-LL propose to partner to develop a very longwave infrared (VLWIR) digital focal plane array (DFPA) and camera for imaging spectroscopy applications. The DFPA will be based on Type-II InAs/GaSb strained layer superlattice (SLS) photodiodes with > 13 micron cutoff, hybridized to a 640x480 digital readout integrated circuit (DROIC)....

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