When a
photon strikes a semiconductor, it can promote an
electron from the
valence band (filled orbitals) to the
conduction band (unfilled orbitals) creating an electron(-) - hole(+) pair. The
concentration of these electron-hole pairs is dependent on the amount of light striking the semiconductor, making the
semiconductor suitable as an optical detector. There are two ways to
monitor the
concentration of electron-hole pairs. In photodiodes, a
voltage bias is present and the
concentration of light-induced electron-hole pairs determines the
current through
semiconductor. Photovoltaic detectors contain a p-n junction, that causes the electron-hole pairs to separate to produce a
voltage that can be measured.
Schematic of semiconductor detector
Photodiode detectors are not as sensitive as PMTs but they are small and robust. Wavelength rangeTable 1: Wavelength rangeDetector type
(
)Si0.2 - 1.1Ge0.4 - 1.8InAs1.0 - 3.8InSb1.0 - 7.0InSb (77K)1.0 - 5.6HgCdTe (77K)1.0 -25.0Related Topics
- Optics
- Optical Materials
- Other optical detectors
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