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Anomalous Blue Shift of Exciton Luminescence in Diamond

Cheng Lü, Wei Zheng, Yanming Zhu, Feng Huang, Haikuo Wang, Xiaoping Ouyang

2022Nano Letters21 citationsDOI

Abstract

Generally speaking, for a semiconductor, the temperature dependence of excitonic emission corresponds to that of its band gap. However, an anomalous behavior is exhibited by the excitonic luminescence of diamond where as the temperature increases (from 10 to 300 K), its indirect exciton luminescence peak displays a spectral-distinguishable blue shift, whereas the indirect band-gap absorption shows a weak red shift. According to experimental high-resolution deep-ultraviolet spectra and theoretical analysis, the weak red shift of its indirect band gap is ascribed to its large Debye temperature (ΘD ≈ 2220 K), which makes the lattice constant change comparatively little in a large temperature range, so the change of its band gap is relatively small; in this case, as the temperature rises, the thermal population of valence-band holes that moves to a high-energy state far away from the Fermi surface contributes to the macroscopic blue shift of its excitonic emission.

Topics & Concepts

ExcitonLuminescenceDiamondBlueshiftBand gapCondensed matter physicsSemiconductorDirect and indirect band gapsChemistryAtmospheric temperature rangePhotoluminescenceMolecular physicsAtomic physicsMaterials scienceOptoelectronicsPhysicsMeteorologyOrganic chemistryDiamond and Carbon-based Materials ResearchElectronic and Structural Properties of OxidesSemiconductor materials and devices
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