This presentation discusses two examples of devices under investigation in our group. The ultrahigh speed and frequency capability of quantum well infrared photodetectors (QWIPs) is well known, thanks to the short intrinsic carrier lifetime (/spl sim/5 ps). For high-speed applications where lasers are usually used, the most important parameter is the absorption efficiency. We show that high absorption (/spl sim/100%) can be easily achieved by simply changing some of the device parameters. At present time, QWIPs hold the unique position of having high speed/frequency capability and high absorption for the thermal infrared region. There are no competitive alternatives. In connection with high-speed applications, we also discuss two-photon intersubband transition in quantum wells. For some special applications, intrinsic nonlinear QWIP properties are useful, such as in autocorrelation of short pulses by two-photon absorption. The other device discussed here is an integrated 1.5 to 1/spl mu/m up-converter based on InP, GaAs, and related compounds. The device consists of a serially connected 1.5-/spl mu/m InGaAs PIN photodiode and 1/spl mu/m light-emitting diode. The operation of the device relies on (1) detecting a 1.5-/spl mu/m signal by the photodiode and (2) driving the light-emitting diode by the resulting photocurrent, thus achieving up-conversion.
Novel infrared devices based on semiconductor quantum structures
2003-01-01
224182 byte
Conference paper
Electronic Resource
English
Novel Infrared Devices Based on Semiconductors Quantum Structures
British Library Conference Proceedings | 2003
|Thin Semiconductor/Metal Films For Infrared Devices
NTRS | 1995
|Thin Semiconductor-Metal Films for Infrared Devices
Online Contents | 1995
III-IV quantum structures for infrared detection
NTRS | 2017
|