Detection of individual 0.4–28 μm wavelength photons via impurity-impact ionization in a solid-state photomultiplier
- 10 August 1987
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 51 (6), 406-408
- https://doi.org/10.1063/1.98404
Abstract
A solid‐state device capable of continuous detection of individual photons in the wavelength range from 0.4 to 28 μm is described. Operated with a dc applied bias, its response to the absorption of incident photons consists of submicrosecond rise time pulses with amplitudes well above the electronic readout noise level. A counting quantum efficiency of over 30% has been demonstrated at a wavelength of 20 μm, and over 50% was observed in the visible‐light region. Optimum photon‐counting performance occurs for temperatures between 6 and 10 K and for count rates less than 1010 counts/s per cm2 of detector area. The operating principle of the device is outlined and its performance characteristics as a photon detector are presented.Keywords
This publication has 9 references indexed in Scilit:
- Near-single carrier-type multiplication in a multiple graded-well structure for a solid-state photomultiplierIEEE Electron Device Letters, 1987
- New avalanche multiplication phenomenon in quantum well superlattices: Evidence of impact ionization across the band-edge discontinuityApplied Physics Letters, 1986
- A new MOS photon-counting sensor operating in the above-breakdown regimeIEEE Transactions on Electron Devices, 1984
- Single photon detection at 1.3 μm using a gated avalanche photodiodeApplied Physics Letters, 1984
- Photon counting with photodiodesApplied Optics, 1983
- Staircase solid-state photomultipliers and avalanche photodiodes with enhanced ionization rates ratioIEEE Transactions on Electron Devices, 1983
- Infrared detection by an atomic vapor quantum counterIEEE Journal of Quantum Electronics, 1978
- The theory of impurity conductionAdvances in Physics, 1961
- Solid State Infrared Quantum CountersPhysical Review Letters, 1959