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Paper detail

Light-driven permanent transition from insulator to conductor in Ga2O3

The transition from insulator to conductor can be achieved in some materials but requires modification of both the arrangement of atoms and their electronic configurations. This is often achieved by doping. Here we reveal a mechanism the lattice may adopt to induce such a transition. We show that limited exposure to sub-bandgap light caused a permanent transition from an insulator state to a conductor state in the insulating oxide Ga2O3 with 9-orders of magnitude increase in electronic conduction. Photoexcitation modifies the charge state of an O-vacancy and the redistribution of the localized electrons, leading to a massive structural distortion in the lattice that is shown to be the underlying mechanism. It modifies density of states and introduces new stable states with shallower energy levels, leading to this intriguing behavior. We suggest that this mechanism may occur in other wide bandgap metal oxides leading to drastic modification in their electronic properties.

preprint2020arXivOpen access
F. A. SelimD. RanaS. AgarwalM. IslamA. BanerjeeB. P. UberuagaP. SaadatkiaP. DulalN. AdhikariM. ButterlingM. O. LiedkeA. Wagner
cond-mat.mtrl-sci
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F. A. SelimD. RanaS. AgarwalM. IslamA. BanerjeeB. P. UberuagaP. SaadatkiaP. DulalN. AdhikariM. ButterlingM. O. LiedkeA. Wagner

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