Thiswork focuses on the development and the characterization of avalanche photodiodes with separated absorption and multiplication regions grown by molecular beam epitaxy. The i-GaAs absorption region is separated from the multiplication region by a δ p-doped layer of carbon atoms, which ensures that after applying a reverse bias, the vast majority of the potential drops in the multiplication region. Therein, thin layers of AlGaAs and GaAs alternate periodically in a socalled staircase structure to create a periodic modulation of the band gap, which under bias enables a well-defined charge multiplication and results in a low multiplication noise. The influence of the concentration of carbon atoms in the δ p-doped layer on the device characteristics was investigated and experimental data are presented together with simulation results.
Influence of δ p-doping on the behaviour of GaAs/AlGaAs SAM-APDs for synchrotron radiation / Steinhartova, T., Nichetti, C., Antonelli, M., Cautero, G., Menk, R.H., Pilotto, A., Driussi, F., Palestri, P., Selmi, L., Koshmak, K., Nannarone, S., Arfelli, F., Zilio, S.D., Biasiol, G.. - In: JOURNAL OF INSTRUMENTATION. - ISSN 1748-0221. - ELETTRONICO. - 12:11(2017), pp. 1-7. [10.1088/1748-0221/12/11/C11017]
Influence of δ p-doping on the behaviour of GaAs/AlGaAs SAM-APDs for synchrotron radiation
Palestri, P.;Selmi, L.;
2017
Abstract
Thiswork focuses on the development and the characterization of avalanche photodiodes with separated absorption and multiplication regions grown by molecular beam epitaxy. The i-GaAs absorption region is separated from the multiplication region by a δ p-doped layer of carbon atoms, which ensures that after applying a reverse bias, the vast majority of the potential drops in the multiplication region. Therein, thin layers of AlGaAs and GaAs alternate periodically in a socalled staircase structure to create a periodic modulation of the band gap, which under bias enables a well-defined charge multiplication and results in a low multiplication noise. The influence of the concentration of carbon atoms in the δ p-doped layer on the device characteristics was investigated and experimental data are presented together with simulation results.
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