Hostut, M.Alyoruk, M.Tansel, T.Kilic, A.Turan, R.Aydınlı, AtillaErgun, Y.2016-02-082016-02-0820150749-6036http://hdl.handle.net/11693/24603We have studied the theoretical and experimental properties of InAs/AlSb/GaSb based type-II superlattice (T2SL) pin photodetector called N-structure. Electronic properties of the superlattice such as HH-LH splitting energies was investigated using first principles calculations taking into account InSb and AlAs as possible interface transition alloys between AlSb/InAs layers and individual layer thicknesses of GaSb and InAs. T2SL N-structure was optimized to operate as a MWIR detector based on these theoretical approaches tailoring the band gap and HH-LH splitting energies with InSb transition layers between InAs/AlSb interfaces. Experimental results show that AlSb layers in the structure act as carrier blocking barriers reducing the dark current. Dark current density and R0A product at 125 K were obtained as 1.8 × 10-6 A cm-2 and 800ωcm2 at zero bias, respectively. The specific detectivity was measured as 3 × 1012 Jones with cut-off wavelengths of 4.3 μm at 79 K reaching to 2 × 109 Jones and 4.5 μm at 255 K. ©2014 Elsevier Ltd. All rights reserved.EnglishIII-V semiconductorsInAs/AlSb/GaSbInfrared detectorMWIRPhotodetectorsType-II superlatticeCalculationsElectronic propertiesEnergy gapGallium alloysIndium antimonidesInfrared detectorsInfrared radiationPhotodetectorsPhotonsFirst-principles calculationII-IV semiconductorsInAsInterface transitionsMWIRP-i-n photodetectorsTheoretical approachType-II superlatticesSuperlatticesArticle10.1016/j.spmi.2014.12.022