论文信息 - Photovoltaic detector based on type II p-InAs/AlSb/InAsSb/AlSb/p-GaSb heterostructures with a single quantum well for mid-infrared spectral range

Photovoltaic detector based on type II p-InAs/AlSb/InAsSb/AlSb/p-GaSb heterostructures with a single quantum well for mid-infrared spectral range

Mid-infrared photovoltaic detector (PD) designed on the base of a type II p-InAs/p-GaSb asymmetric heterostructure with a deep AlSb/InAsSb/AlSb quantum well (QW) at the interface is reported. The heterostructures containing the single QW were grown by LP-MOVPE. Transport, electroluminescent and photoelectrical properties of these structures were investigated. Intense both positive and negative electroluminescence was observed in the spectral range 3-4 µm above room temperature (300-400 K). Spectral response in the mid-infrared range 1.2-3.6 μm was obtained at temperatures T=77-300 K. High quantum efficiency η=0.6-0.7 responsivity Sλ=1.4-1.7 A/W and detectivity Dλ* =3.5×1011 cm Hz1/2w-1 were achieved at 77 K. Such QW PDs are suitable for heterodyne spectroscopy and free space communication using quantum cascade lasers as well as for gas analysis and ecological monitoring applications.

[1] Walter Kruppa,et al. Low-frequency noise in AlSb/InAs high-electron-mobility transistor structure as a function of temperature and illumination , 2004 .

[2] Junichiro Kono,et al. Near-infrared intersubband transitions in delta-doped InAs/AlSb multi-quantum wells , 2004 .

[3] H. Sakaki,et al. Interface roughness scattering in GaAs/AlAs quantum wells , 1987 .

[4] David Z. Ting,et al. Negative differential resistance due to resonant interband tunneling of holes , 1990 .

[5] K. D. Moiseev,et al. Room-temperature electroluminescence of AlSb/InAsSb single quantum wells grown by metal organic vapor phase epitaxy , 2006 .

[6] K. D. Moiseev,et al. Interface-induced optical and transport phenomena in type II broken-gap single heterojunctions , 2004 .

[7] Maya P. Mikhailova,et al. Optoelectronic sensors on GaSb- and InAs-based heterostructures for ecological monitoring and medical diagnostics , 2007, SPIE Optics + Optoelectronics.

[8] Maya P. Mikhailova,et al. High-speed photodiodes for 2.0-4.0 μm spectral range , 2007, International Conference on Photoelectronics and Night Vision Devices.

[9] Milton Feng,et al. p‐type InGaAs/InP quantum well infrared photodetector with peak response at 4.55 μm , 1996 .

[10] B. F. Levine,et al. Quantum‐well infrared photodetectors , 1993 .

[11] Mohamed Missous,et al. QWIP Detectors for the MWIR , 2006 .