Study of two-subband population in Fe-doped AlxGa1-xN/GaN heterostructures by persistent photoconductivity effect
Ikai Lo, J.K. Tsai, M.H. Gau, Y.L. Chen, Z.J. Chang, W.T. Wang, J.C., Chiang, K.R. Wang, Chun-Nan Chen, T. Aggerstam
TL;DR
This study investigates the electronic properties of Fe-doped AlGaN/GaN heterostructures, revealing two populated subbands and persistent photoconductivity effects linked to Fe-related deep donors, using Shubnikov-de Haas measurements.
Contribution
It provides new insights into subband population dynamics and the role of Fe-related deep donors in Fe-doped AlGaN/GaN heterostructures.
Findings
Two subbands are populated in the heterostructure.
Persistent photoconductivity increases electron density by ~13%.
Energy separation between subbands is 105 meV.
Abstract
The electronic properties of Fe-doped Al0.31Ga0.69N/GaN heterostructures have been studied by Shubnikov-de Haas measurement. Two subbands of the two-dimensional electron gas in the hetero-interface were populated. After the low temperature illumination, the electron density increases from 11.99 x 1012 cm-2 to 13.40 x 1012 cm-2 for the first subband and from 0.66 x 1012 cm-2 to 0.94 x 1012 cm-2 for the second subband. The persistent photoconductivity effect (~13% increase) is mostly attributed to the Fe-related deep-donor level in GaN layer. The second subband starts to populate when the first subband is filled at a density n1 = 9.40 x 1012 cm-2. We calculate the energy separation between the first and second subbands to be 105 meV.
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