Temperature dependence of the fundamental absorption edge of mercury cadmium telluride

Laurenti, J.P.; Camassel, Jean; Bouhemadou, A.; Toulouse, B.; Legros, R.; Lusson, A.

doi:10.1063/1.345119

Cited by 120 publications

(81 citation statements)

References 25 publications

(5 reference statements)

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“…It seems that the actual generally accepted value of E g is 1.512 ± 0.003 eV, as deduced from photoreflectance and electroreflectance methods [1,3]. Studies on the temperature dependence of E g [4][5][6][7][8][9][10] of CdTe are only slowly converging. However, the knowledge of E g (T) is needed for modeling of transport properties and investigation of defect states in the gap at higher temperatures.…”

Section: Introductionmentioning

confidence: 99%

Free‐exciton absorption in bulk CdTe: temperature dependence

Horodyský

Hlı́dek

2006

Physica Status Solidi (b)

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The absorption spectra in the free-exciton region were measured on micrometer-thick samples of bulk CdTe crystals. Analysis of the Urbach tail showed that the absorption edge is dominated by the freeexciton transitions even at room temperature. The temperature dependence of the fundamental energy gap was obtained from the free-exciton resonance from 4 K to 500 K. The value of 1.526 eV is proposed for the energy gap at 300 K. A comparison with the temperature dependencies of other works is given.

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Section: Introductionmentioning

confidence: 99%

Free‐exciton absorption in bulk CdTe: temperature dependence

Horodyský

Hlı́dek

2006

Physica Status Solidi (b)

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“…16 The band structure parameters for HgTe and CdTe at T = 0 K are listed in Table I. The dependence of the band gap (E g ) of Hg 1−x Cd x Te on the temperature and composition x is determined from the empirical expression according to Laurenti et al 17 The valence band offset between HgTe and CdTe is taken to be equal to 570 meV at T = 0 K, in agreement with recent experiments, 18 and is assumed to vary linearly with x. …”

Section: 14mentioning

confidence: 99%

Band structure of semimagneticHg1−yMnyTequantum wells

et al. 2005

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The band structure of semimagnetic Hg1−yMnyTe/Hg1−xCdxTe type-III quantum wells has been calculated using eight-band k · p model in an envelope function approach. Details of the band structure calculations are given for the Mn free case (y = 0). A mean field approach is used to take the influence of the sp − d exchange interaction on the band structure of QW's with low Mn concentrations into account. The calculated Landau level fan diagram and the density of states of a Hg0.98Mn0.02Te/Hg0.3Cd0.7Te QW are in good agreement with recent experimental transport observations. The model can be used to interpret the mutual influence of the two-dimensional confinement and the sp−d exchange interaction on the transport properties of Hg1−yMnyTe/Hg1−xCdxTe QW's.

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“…All lattice parameters are linearly interpolated in x except for the zero-field gap at y = 0. We use a quadratic interpolation of the last parameter from the literature 21 .…”

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confidence: 99%

Prediction of a Weyl semimetal inHg1−x−yCdxMny

2014

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We study strained Hg1−x−yCdxMnyTe in a magnetic field using a k · p model and predict that the system is a Weyl semimetal with two nodes in an experimentally reasonable region of the phase diagram. We also predict two signatures of the Weyl semimetal phase which arise from tunability of the Weyl node splitting. First, we find that the Hall conductivity is proportional to the average Mn ion spin and thus is strongly temperature dependent. Second, we find an unusual magnetic field angle dependence of the Hall conductivity; in particular, we predict a peak in σxy as a function of field angle in the xz-plane and a finite σyz as the x-component of the field goes to 0.Introduction.-Since the connection of the Chern number to the quantum Hall effect 1 , topology has become an increasingly important ingredient in classifying phases of matter. Despite all early examples of topological states being insulators, it has recently been shown that gapless materials can also have topologically nontrivial properties, with the primary example being the Weyl semimetal (WSM) 2-5 .

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Temperature dependence of the fundamental absorption edge of mercury cadmium telluride

Cited by 120 publications

References 25 publications

Free‐exciton absorption in bulk CdTe: temperature dependence

Free‐exciton absorption in bulk CdTe: temperature dependence

Band structure of semimagneticHg1−yMnyTequantum wells

Prediction of a Weyl semimetal inHg1−x−yCdxMny

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