Yazar "Aydınlı, A." için listeleme
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Electrical and optical performance of InAs / AlSb / GaSb superlattice photodetector
Hoştut, M.; Tansel, Tunay; Ergün, Yüksel; Kılıç, A.; Aydınlı, A. (TANGER Ltd., 2015)We report on electrical and optical performance of InAs/AlSb/GaSb type-II superlattice photodetectors. The detector structure is designed to operate in the MWIR domain with a cut-off wavelength of 4.3 µm at 125 K. The ... -
Electrical performance of InAs/AlSb/GaSb superlattice photodetectors
Tansel, Tunay; Hoştut, Mustafa; ElagÖz, S.; Kılıç, A.; Ergün, Y.; Aydınlı, A. (Academic Press LTD- Elsevier Science LTD, 2016)Temperature dependence of dark current measurements is an efficient way to verify the quality of an infrared detector. Low dark current density values are needed for high performance detector applications. Identification ... -
Electronic and optical properties of 4.2 mu m"N" structured superlattice MWIR photodetectors
Salihoğlu, Ömer; Hoştut, Mustafa; Tansel, Tunay; Kutluer, K.; Kılıç, A.; Alyörük, M.; Aydınlı, A. (Elsevier Science BV, 2013)We report on the development of a new structure for type II superlattice photodiodes that we call the "N" design. In this new design, we insert an electron barrier between InAs and GaSb in the growth direction. The barrier ... -
N-structure based on InAs/AlSb/GaSb superlattice photodetectors
Hoştut, M.; Alyörük, M.; Tansel, Tunay; Kılıç, A.; Turan, Raşit; Aydınlı, A.; Ergün, Yüksel (Academic Press LTD- Elsevier Science LTD, 2015)We 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 ... -
Theoretical investigation of InAs/GaSb type-II pin superlattice infrared detector in the mid wavelength infrared range
Kaya, U.; Hoştut, Mustafa; Kılıç, A.; Şakiroğlu, S.; Sökmen, I.; Ergün, Y.; Aydınlı, A. (Amer Inst Physics, 2013)In this study, we present the theoretical investigation of type-II InAs/GaSb superlattice p-i-n detector. Kronig-Penney and envelope function approximation is used to calculate band gap energy and superlattice minibands. ...
