Akademik Veri Yönetim Sistemi
Turkish Physical Society 32nd International Physics Congress, TPS 2016, Konacik-Bodrum, Türkiye, 6 - 09 Eylül 2016, cilt.1815
In this work electronic band structure of dilute bismide GaAs/GaAs1−xBix quantum well structures with 1.8% and 3.75% bismuth compositions have been investigated both experimentally and theoretically. Photoluminescence (PL) measurements reveal that effective bandgap of the samples decreases approximately 65 meV per bismuth concentration. Temperature dependence of the effective bandgap is obtained to be higher for the sample with higher bismuth concentration. Moreover, both asymmetric characteristic at the low energy tail of the PL and full width at half maximum (FWHM) of PL peak increase with increasing bismuth composition as a result of increased Bi related defects located above valence band (VB). In order to explain composition dependence of the effective bandgap quantitatively, valence band anti-crossing (VBAC) model is used. Bismuth composition and temperature dependence of effective bandgap in a quantum well structure is modeled by solving Schrodinger equation and ¨ compared with experimental PL data.