A THEORETICAL-STUDY OF PRESSURE EFFECTS ON SELENIUM-I

SJ CLARK; GJ ACKLAND; H AKBARZADEH; Graeme Ackland

A THEORETICAL-STUDY OF PRESSURE EFFECTS ON SELENIUM-I

SJ CLARK^*, GJ ACKLAND, H AKBARZADEH, Graeme Ackland

^*Corresponding author for this work

School of Physics and Astronomy

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

Abstract

Total energy calculations have been carried out on the hexagonal phase of selenium in order to study the effects of pressure on the internal structure, electronic band structure and the Gamma-point vibrational modes. The Kohn-Sham equations are solved within the local density approximation using the pseudopotential method with a plane wave basis set. The structure is obtained at several pressures by optimising the size of the unit cell and allowing the atoms to move under the influence of the Hellmann-Feynman forces. It is found that the band gap closes quickly with pressure and, while constraining the space group, we observe a band closure at the H point at a pressure of 20 GPa. We further show that the valence bands split into separate groups which can be associated with covalent bonds, lone pair p-like orbitals and s-type atomic orbitals.

Original language	English
Pages (from-to)	329-334
Number of pages	6
Journal	Journal of Physics and Chemistry of Solids
Volume	56
Issue number	3-4
Publication status	Published - 1995
Event	6th International Conference on High Pressure Semiconductor Physics (HPSP VI) - VANCOUVER, Canada Duration: 21 Aug 1994 → 24 Aug 1994

Keywords / Materials (for Non-textual outputs)

SEMICONDUCTOR
AB INITIO CALCULATIONS
LATTICE DYNAMICS
PHASE-TRANSITIONS
PSEUDOPOTENTIALS
DYNAMICS
SYSTEMS
STATE
SE
TE

Cite this

@article{61b48c090f1b4bf5b9a60eeda38f2970,

title = "A THEORETICAL-STUDY OF PRESSURE EFFECTS ON SELENIUM-I",

abstract = "Total energy calculations have been carried out on the hexagonal phase of selenium in order to study the effects of pressure on the internal structure, electronic band structure and the Gamma-point vibrational modes. The Kohn-Sham equations are solved within the local density approximation using the pseudopotential method with a plane wave basis set. The structure is obtained at several pressures by optimising the size of the unit cell and allowing the atoms to move under the influence of the Hellmann-Feynman forces. It is found that the band gap closes quickly with pressure and, while constraining the space group, we observe a band closure at the H point at a pressure of 20 GPa. We further show that the valence bands split into separate groups which can be associated with covalent bonds, lone pair p-like orbitals and s-type atomic orbitals.",

keywords = "SEMICONDUCTOR, AB INITIO CALCULATIONS, LATTICE DYNAMICS, PHASE-TRANSITIONS, PSEUDOPOTENTIALS, DYNAMICS, SYSTEMS, STATE, SE, TE",

author = "SJ CLARK and GJ ACKLAND and H AKBARZADEH and Graeme Ackland",

year = "1995",

language = "English",

volume = "56",

pages = "329--334",

journal = "Journal of Physics and Chemistry of Solids",

issn = "0022-3697",

publisher = "Elsevier",

number = "3-4",

note = "6th International Conference on High Pressure Semiconductor Physics (HPSP VI) ; Conference date: 21-08-1994 Through 24-08-1994",

}

TY - JOUR

T1 - A THEORETICAL-STUDY OF PRESSURE EFFECTS ON SELENIUM-I

AU - CLARK, SJ

AU - ACKLAND, GJ

AU - AKBARZADEH, H

AU - Ackland, Graeme

PY - 1995

Y1 - 1995

N2 - Total energy calculations have been carried out on the hexagonal phase of selenium in order to study the effects of pressure on the internal structure, electronic band structure and the Gamma-point vibrational modes. The Kohn-Sham equations are solved within the local density approximation using the pseudopotential method with a plane wave basis set. The structure is obtained at several pressures by optimising the size of the unit cell and allowing the atoms to move under the influence of the Hellmann-Feynman forces. It is found that the band gap closes quickly with pressure and, while constraining the space group, we observe a band closure at the H point at a pressure of 20 GPa. We further show that the valence bands split into separate groups which can be associated with covalent bonds, lone pair p-like orbitals and s-type atomic orbitals.

AB - Total energy calculations have been carried out on the hexagonal phase of selenium in order to study the effects of pressure on the internal structure, electronic band structure and the Gamma-point vibrational modes. The Kohn-Sham equations are solved within the local density approximation using the pseudopotential method with a plane wave basis set. The structure is obtained at several pressures by optimising the size of the unit cell and allowing the atoms to move under the influence of the Hellmann-Feynman forces. It is found that the band gap closes quickly with pressure and, while constraining the space group, we observe a band closure at the H point at a pressure of 20 GPa. We further show that the valence bands split into separate groups which can be associated with covalent bonds, lone pair p-like orbitals and s-type atomic orbitals.

KW - SEMICONDUCTOR

KW - AB INITIO CALCULATIONS

KW - LATTICE DYNAMICS

KW - PHASE-TRANSITIONS

KW - PSEUDOPOTENTIALS

KW - DYNAMICS

KW - SYSTEMS

KW - STATE

KW - SE

KW - TE

M3 - Article

SN - 0022-3697

VL - 56

SP - 329

EP - 334

JO - Journal of Physics and Chemistry of Solids

JF - Journal of Physics and Chemistry of Solids

IS - 3-4

T2 - 6th International Conference on High Pressure Semiconductor Physics (HPSP VI)

Y2 - 21 August 1994 through 24 August 1994

ER -

A THEORETICAL-STUDY OF PRESSURE EFFECTS ON SELENIUM-I

Abstract

Keywords / Materials (for Non-textual outputs)

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