A model for steady-state luminescence 
of localized-state ensemble

Q. Li; S. J. Xu; M. H. Xie; S. Y. Tong

doi:10.1209/epl/i2005-10170-7

A model for steady-state luminescence of localized-state ensemble

Q. Li¹, S. J. Xu¹, M. H. Xie¹ and S. Y. Tong¹

Published 10 August 2005 • 2005 EDP Sciences
Europhysics Letters, Volume 71, Number 6 Citation Q. Li et al 2005 EPL 71 994 DOI 10.1209/epl/i2005-10170-7

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¹ Department of Physics and HKU-CAS Joint Laboratory on New Materials The University of Hong Kong - Pokfulam Road, Hong Kong, PRC

Dates

Received 3 February 2005
Accepted 12 July 2005
Published 10 August 2005

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Abstract

A distribution function for localized carriers, f(E,T) = 1/(e^{(E − E_a)/k_BT} + τ_tr/τ_r), is obtained by solving a rate equation, in which electrical carriers' generation, thermal escape, recapture and radiative recombination are taken into account. Based on this distribution function, a model is developed for luminescence from localized-state ensemble with a Gaussian-type density of states. The model reproduces quantitatively all the anomalous temperature behaviors of localized-state luminescence. It reduces to the well-known band-tail and luminescence quenching models under certain approximations.

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