Experimental evidence for the distinction between metastability and persistence in optical and electronic properties of bulk GaAs and AlGaAs

Pinheiro, M.V.B; Krambroc, K.

doi:10.1590/s0103-97331999000400041

Cited by 2 publications

(1 citation statement)

References 3 publications

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“…The microscopic structure of EL2 is still a controversial subject; it is accepted that its core is an arsenic antisite (AsGa) [52] acting as a double donor, it has three charge states EL2 0 , EL2 + and EL2 ++ which introduce two ionization levels in the band gap (E v + 0.75 eV for 0/+ and E v + 0.54 eV for +/++). Its neutral charge state has an excited state, EL2 0 , which is metastable and optically and electrically inactive at low temperatures [53]. The results obtained confirm the possibility of explaining the total voltage/current effect based on processes occurring mainly in the cathode ports.…”

Section: Discussionsupporting

confidence: 69%

Memory effect in semiconductor gas discharge electronic devices

Sadiq¹,

Kurt²,

Salamov³

2008

J. Phys. D: Appl. Phys.

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The memory effect in the planar semiconductor gas discharge system at different pressures (15–760 Torr) and interelectrode distances (60–445 µm) was experimentally studied. The study was performed on the basis of current–voltage characteristic (CVC) measurements with a time lag of several hours of afterglow periods. The influence of the active space charge remaining from the previous discharge on the breakdown voltage (UB) has been analysed using the CVC method for different conductivities of semiconductor GaAs photocathode. CVC showed that even a measurement taken 96 h after the first breakdown was influenced by accumulated active particles deposited from the previous discharge. Such phenomena based on metastable atoms surviving from the previous discharge and recombined on the cathode to create initial electrons in the avalanche mechanism are shown to be fully consistent with CVC data for both pre-breakdown and post-breakdown regions. However, in the post-breakdown region pronounced negative differential conductivity was observed. Such nonlinear electrical property of GaAs is attributed to the existence of deep electronic defect called EL2 in the semiconductor cathode material. On the other hand, the CVC data for subsequent dates present a correlation of memory effect and hysteresis behaviour. The explanation for such a relation is based on the influence of long lived active charges on the electronic transport mechanism of semiconductor material.

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Section: Discussionsupporting

confidence: 69%