Add to ORKGInformation is given in viewgraph form. Information is given on the characteristics of stressed Ge:Ga, a spring type stress cavity, mounting hardware, materials parameters affecting dark current, and the behavior of low dark current stressed Ge:Ga. It is concluded that detectors exist today for background-limited detection at 200 microns, that researchers are narrowing in on the significant parameters that effect dark current in stressed photoconductors, that these findings may be applied to other photoconductor materials, and that some creative problem solving for an ionizing effect reset mechanism is needed
The Ge-film-based photon-counting imaging detector is a key component of optical payload in space we...
The Ge-film-based photon-counting imaging detector is a key component of optical payload in space we...
The multi-agency, long-term Global Change programs, and specifically NASA's Earth Observing system, ...
The development of stressed Ge:Ga detector arrays for far-infrared astronomy from the Kuiper Airborn...
The detectors were fabricated from a Ge:Ga wafer from Eagle-Pitcher with a room temperature resistiv...
An effort to optimize gallium-doped germanium photoconductors (Ge:Ga) for use in space for sensitive...
The development of doped-germanium detectors which have optimized performance in the 30- to 120-mu m...
The authors report on Ge:Ga and Ge:Sb photoconductor materials and detectors that are under developm...
Gallium-doped germanium far infrared detectors were evaluated at low temperatures and low background...
The long wavelength cutoff of a Si:P detector was extended to 34 microns by the application of a uni...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Seven gallium doped germanium (Ge:Ga) photoconductive infrared detectors were fabricated and mounted...
The Ge-film-based photon-counting imaging detector is a key component of optical payload in space we...
The Ge-film-based photon-counting imaging detector is a key component of optical payload in space we...
The multi-agency, long-term Global Change programs, and specifically NASA's Earth Observing system, ...
The development of stressed Ge:Ga detector arrays for far-infrared astronomy from the Kuiper Airborn...
The detectors were fabricated from a Ge:Ga wafer from Eagle-Pitcher with a room temperature resistiv...
An effort to optimize gallium-doped germanium photoconductors (Ge:Ga) for use in space for sensitive...
The development of doped-germanium detectors which have optimized performance in the 30- to 120-mu m...
The authors report on Ge:Ga and Ge:Sb photoconductor materials and detectors that are under developm...
Gallium-doped germanium far infrared detectors were evaluated at low temperatures and low background...
The long wavelength cutoff of a Si:P detector was extended to 34 microns by the application of a uni...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Doped germanium photoconductors are the most sensitive detectors for astronomy in the wavelength ran...
Seven gallium doped germanium (Ge:Ga) photoconductive infrared detectors were fabricated and mounted...
The Ge-film-based photon-counting imaging detector is a key component of optical payload in space we...
The Ge-film-based photon-counting imaging detector is a key component of optical payload in space we...
The multi-agency, long-term Global Change programs, and specifically NASA's Earth Observing system, ...