6533b829fe1ef96bd1289702

RESEARCH PRODUCT

Optical properties of wurtzite and rock-salt ZnO under pressure

Alfredo SeguraM. J. Herrera-cabreraFrancisco Javier ManjónBernabé MaríJuan Angel SansAlfonso Muñoz

subject

Materials scienceCondensed matter physicsBand gapbusiness.industryExcitonGeneral EngineeringPressure coefficientOpticsAbsorption edgePhase (matter)Thin filmAbsorption (electromagnetic radiation)businessWurtzite crystal structure

description

Abstract This paper reports on the pressure dependence of the optical absorption edge of ZnO in the wurtzite and rock-salt phase, up to 14 GPa. Both vapor-phase monocrystals and pulsed-laser-deposition thin films have been investigated. In both types of samples the wurtzite to rock-salt transition is observed at 9.7±0.2 GPa. The absorption tail of the fundamental gap, as measured in monocrystals, exhibits a pressure coefficient of 24.5±2 meV/GPa. The evolution under pressure of the full absorption edge of the wurtzite phase is studied with thin film samples, yielding a slightly lower pressure coefficient (23.0±0.5 meV/GPa for the A–B exciton). Rock-salt ZnO is shown to be an indirect semiconductor with a bandgap of 2.7±0.2 eV. At higher photon energy a direct transition (Egd–4.5 eV) can be also identified in thin films transited to the rock-salt phase. Results on the high-pressure phase are interpreted on the basis of density-functional-theory (DFT) electronic structure calculations.

yearjournalcountryeditionlanguage
2005-10-01Microelectronics Journal
https://doi.org/10.1016/j.mejo.2005.05.010