Urbach tail, disorder, and localized modes in ternary semiconductors

Ismardo Bonalde; Ernesto Medina; Miguel Rodríguez; S. M. Wasim; G. Marín; C. Rincón; A. Rincón; C. Torres

doi:10.1103/PhysRevB.69.195201

Urbach tail, disorder, and localized modes in ternary semiconductors

Ismardo Bonalde^*
, Ernesto Medina
, Miguel Rodríguez
, S. M. Wasim
, G. Marín
, C. Rincón
, A. Rincón
, C. Torres

^*Corresponding author for this work

Instituto Venezolano de Investigaciones Científicas
Universidad de Los Andes (ULA)

Research output: Contribution to journal › Article › peer-review

54 Scopus citations

Abstract

We analyze the role of localized modes, produced by structural disorder, in the formation of the optical-absorption edge in semiconductors. Such modes give rise to an additional energy h δv_d, above the average of the optical modes in the ordered sample. In the present study, this interpretation is confirmed experimentally from a study of infrared absorption spectra of several samples of the semiconductor CuGaTe₂. The high value of h v_p found in these samples, higher than the average of the 14 Raman modes of the ordered sample, is in good agreement with the average of all the optical and localized modes. Previous models involving disorder are discussed and derived from the thermal/disorder broadening of a harmonic oscillator with average frequency associated with the measured phonon modes. Our quantitative interpretation in terms of phonon frequency shift can be extended to a more general class of crystalline/amorphous semiconducting materials.

Original language	English
Article number	195201
Pages (from-to)	195201-1-195201-5
Journal	Physical Review B-Condensed Matter
Volume	69
Issue number	19
DOIs	https://doi.org/10.1103/PhysRevB.69.195201
State	Published - May 2004
Externally published	Yes

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title = "Urbach tail, disorder, and localized modes in ternary semiconductors",

abstract = "We analyze the role of localized modes, produced by structural disorder, in the formation of the optical-absorption edge in semiconductors. Such modes give rise to an additional energy h δvd, above the average of the optical modes in the ordered sample. In the present study, this interpretation is confirmed experimentally from a study of infrared absorption spectra of several samples of the semiconductor CuGaTe2. The high value of h vp found in these samples, higher than the average of the 14 Raman modes of the ordered sample, is in good agreement with the average of all the optical and localized modes. Previous models involving disorder are discussed and derived from the thermal/disorder broadening of a harmonic oscillator with average frequency associated with the measured phonon modes. Our quantitative interpretation in terms of phonon frequency shift can be extended to a more general class of crystalline/amorphous semiconducting materials.",

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T1 - Urbach tail, disorder, and localized modes in ternary semiconductors

AU - Bonalde, Ismardo

AU - Medina, Ernesto

AU - Rodríguez, Miguel

AU - Wasim, S. M.

AU - Marín, G.

AU - Rincón, C.

AU - Rincón, A.

AU - Torres, C.

PY - 2004/5

Y1 - 2004/5

N2 - We analyze the role of localized modes, produced by structural disorder, in the formation of the optical-absorption edge in semiconductors. Such modes give rise to an additional energy h δvd, above the average of the optical modes in the ordered sample. In the present study, this interpretation is confirmed experimentally from a study of infrared absorption spectra of several samples of the semiconductor CuGaTe2. The high value of h vp found in these samples, higher than the average of the 14 Raman modes of the ordered sample, is in good agreement with the average of all the optical and localized modes. Previous models involving disorder are discussed and derived from the thermal/disorder broadening of a harmonic oscillator with average frequency associated with the measured phonon modes. Our quantitative interpretation in terms of phonon frequency shift can be extended to a more general class of crystalline/amorphous semiconducting materials.

AB - We analyze the role of localized modes, produced by structural disorder, in the formation of the optical-absorption edge in semiconductors. Such modes give rise to an additional energy h δvd, above the average of the optical modes in the ordered sample. In the present study, this interpretation is confirmed experimentally from a study of infrared absorption spectra of several samples of the semiconductor CuGaTe2. The high value of h vp found in these samples, higher than the average of the 14 Raman modes of the ordered sample, is in good agreement with the average of all the optical and localized modes. Previous models involving disorder are discussed and derived from the thermal/disorder broadening of a harmonic oscillator with average frequency associated with the measured phonon modes. Our quantitative interpretation in terms of phonon frequency shift can be extended to a more general class of crystalline/amorphous semiconducting materials.

UR - https://www.scopus.com/pages/publications/37649029069

U2 - 10.1103/PhysRevB.69.195201

DO - 10.1103/PhysRevB.69.195201

M3 - Artículo

AN - SCOPUS:37649029069

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VL - 69

SP - 195201-1-195201-5

JO - Physical Review B-Condensed Matter

JF - Physical Review B-Condensed Matter

IS - 19

M1 - 195201

ER -

Urbach tail, disorder, and localized modes in ternary semiconductors

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