- and
Hg are
statistically mixed on the
yellow sublattice while the
Te anions form the grey
sublattice in the image. The
electron mobility of
HgCdTe with...
- mK.
Cooled photon detecting infrared detectors using materials such as
HgCdTe (LWIR or MWIR) or InSb (MWIR) can
approach a NET
figure of 10 mK. In the...
- telluride,
HgCdTe, and
partially by lead selenide, PbSe). Long-wave infrared: 8 to 12, or 7 to 14 μm (this is the
atmospheric window covered by
HgCdTe and microbolometers)...
-
purpose include indium antimonide (InSb) and mercury-cadmium
telluride (
HgCdTe),
which have
somewhat better properties for
detecting the
longer IR wavelengths...
-
cadmium telluride photovoltaics.
CdTe can be allo**** with
mercury to make a
versatile infrared detector material (
HgCdTe).
CdTe allo**** with a
small amount...
- and long-wavelength infrared). The most
common types are InSb, InGaAs,
HgCdTe and QWIP FPA. The
newest technologies use low-cost,
uncooled microbolometers...
-
Group IV
compound semiconductors Group VI
elemental semiconductors, (Se and
Te) III–V semiconductors:
Crystallizing with high
degree of stoichiometry, most...
-
transmission window centered on 2.2 μm (in the near-infrared 136 THz range).
HgCdTe-based
detectors are
typically preferred for
observing in this band. Photometric...
-
aviation abbreviation for a jet
engine rating Mercury cadmium telluride (
HgCdTe), a
semiconductor with a
particularly narrow bandgap used in mid- and far-infrared...
-
imager (SOI, CTIO) near-infrared (1–2.4 μm wavelength) 1-million
pixel HgCdTe imager and
spectrograph (OSIRIS, Ohio
State University/CTIO) UV–optical...
