P. Dreszer scite author profile

We present the results of electrical-conductivity and low-temperature deep-level transient spectroscopy (DLTS) measurements performed with use of monochromatic light at hydrostatic pressures up to 0.7 GPa on n-type GaAs samples containing the EL2 defect. Based on our results we give clear experimental evidence that there exists an acceptorlike level of the metastable EL2 configuration. Without pressure this level is resonant with the conduction band and therefore unoccupied, but under pressure it enters the energy gap capturing free electrons and leading to the negative charge state of the metastable EL2. The electrical activity of the level manifests itself in optically induced persistent changes of the electrical conductivity and DLTS signal, driven by EL2 photoquenching and extremely efficient EL2 photorecovery processes. These eff'ects vanish at the temperature at which EL2 thermally recovers its normal configuration. We exclude the "negative-U" case for the level and determine its energetic position and the pressure shift. We claim that the negative charge state of the metastable EL2 is responsible for the optical accessibility of the metastable configuration. Finally, we refer the experimentally confirmed existence of this level to the predictions of the EL2 theoretical models.

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Experimental determination of the pressure dependence of the barrier height of metal/[n-type GaAs] Schottky contacts: A critical test of Schottky-barrier models

Phatak

Newman

Dreszer

et al. 1995

Phys. Rev. B

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P. Dreszer

Phosphorus antisite defects in low-temperature InP

Pressure-induced negative charge state of theEL2 defect in its metastable configuration

Experimental determination of the pressure dependence of the barrier height of metal/[n-type GaAs] Schottky contacts: A critical test of Schottky-barrier models

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