Role of strain and properties of N clusters at the onset of the alloy limit in Ga As1-x Nx

A. Polimeni; F. Masia; G. Pettinari; R. Trotta; M. Felici; M. Capizzi; A. Lindsay; E. P. O'Reilly; T. Niebling; W. Stolz; P. J. Klar

doi:10.1103/PhysRevB.77.155213

Role of strain and properties of N clusters at the onset of the alloy limit in Ga As1-x Nx

A. Polimeni
, F. Masia
, G. Pettinari
, R. Trotta
, M. Felici
, M. Capizzi
, A. Lindsay
, E. P. O'Reilly
, T. Niebling
, W. Stolz
, P. J. Klar

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

Abstract

In Ga As1-x Nx, the band gap energy decreases very rapidly with x and the electron effective mass shows a quite unusual compositional dependence characterized by a sudden doubling for x≅0.1%. In this work, we investigate the origin of this behavior by photoluminescence measurements under hydrostatic pressure in as-grown and hydrogenated Ga As0.9989 N0.0011 samples. First, we show that two nitrogen pair states emitting at 1.488 and 1.508 eV contribute mainly, but to a different extent, in determining the steep increase in the electron mass observed for x≅0.1%. Tight-binding supercell calculations assign the 1.488 eV levels to isolated N pairs and the 1.508 eV states to N pairs perturbed by a nearby N atom, in disagreement with previous attributions but consistent with the electron mass data. Second, photoluminescence at high hydrostatic pressure discloses that these N pair states show quite different rates of passivation by hydrogen. By combining these findings with the calculated lattice energies associated with each N complex, we conclude that strain relaxation is a key mechanism driving the interaction of hydrogen with N atoms in Ga As1-x Nx.

Original language	English
Article number	155213
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	77
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.77.155213
Publication status	Published - 28 Apr 2008
Externally published	Yes

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Polimeni, A., Masia, F., Pettinari, G., Trotta, R., Felici, M., Capizzi, M., Lindsay, A., O'Reilly, E. P., Niebling, T., Stolz, W., & Klar, P. J. (2008). Role of strain and properties of N clusters at the onset of the alloy limit in Ga As1-x Nx. Physical Review B - Condensed Matter and Materials Physics, 77(15), Article 155213. https://doi.org/10.1103/PhysRevB.77.155213

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title = "Role of strain and properties of N clusters at the onset of the alloy limit in Ga As1-x Nx",

abstract = "In Ga As1-x Nx, the band gap energy decreases very rapidly with x and the electron effective mass shows a quite unusual compositional dependence characterized by a sudden doubling for x≅0.1\%. In this work, we investigate the origin of this behavior by photoluminescence measurements under hydrostatic pressure in as-grown and hydrogenated Ga As0.9989 N0.0011 samples. First, we show that two nitrogen pair states emitting at 1.488 and 1.508 eV contribute mainly, but to a different extent, in determining the steep increase in the electron mass observed for x≅0.1\%. Tight-binding supercell calculations assign the 1.488 eV levels to isolated N pairs and the 1.508 eV states to N pairs perturbed by a nearby N atom, in disagreement with previous attributions but consistent with the electron mass data. Second, photoluminescence at high hydrostatic pressure discloses that these N pair states show quite different rates of passivation by hydrogen. By combining these findings with the calculated lattice energies associated with each N complex, we conclude that strain relaxation is a key mechanism driving the interaction of hydrogen with N atoms in Ga As1-x Nx.",

author = "A. Polimeni and F. Masia and G. Pettinari and R. Trotta and M. Felici and M. Capizzi and A. Lindsay and O'Reilly, \{E. P.\} and T. Niebling and W. Stolz and Klar, \{P. J.\}",

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doi = "10.1103/PhysRevB.77.155213",

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T1 - Role of strain and properties of N clusters at the onset of the alloy limit in Ga As1-x Nx

AU - Polimeni, A.

AU - Masia, F.

AU - Pettinari, G.

AU - Trotta, R.

AU - Felici, M.

AU - Capizzi, M.

AU - Lindsay, A.

AU - O'Reilly, E. P.

AU - Niebling, T.

AU - Stolz, W.

AU - Klar, P. J.

PY - 2008/4/28

Y1 - 2008/4/28

N2 - In Ga As1-x Nx, the band gap energy decreases very rapidly with x and the electron effective mass shows a quite unusual compositional dependence characterized by a sudden doubling for x≅0.1%. In this work, we investigate the origin of this behavior by photoluminescence measurements under hydrostatic pressure in as-grown and hydrogenated Ga As0.9989 N0.0011 samples. First, we show that two nitrogen pair states emitting at 1.488 and 1.508 eV contribute mainly, but to a different extent, in determining the steep increase in the electron mass observed for x≅0.1%. Tight-binding supercell calculations assign the 1.488 eV levels to isolated N pairs and the 1.508 eV states to N pairs perturbed by a nearby N atom, in disagreement with previous attributions but consistent with the electron mass data. Second, photoluminescence at high hydrostatic pressure discloses that these N pair states show quite different rates of passivation by hydrogen. By combining these findings with the calculated lattice energies associated with each N complex, we conclude that strain relaxation is a key mechanism driving the interaction of hydrogen with N atoms in Ga As1-x Nx.

AB - In Ga As1-x Nx, the band gap energy decreases very rapidly with x and the electron effective mass shows a quite unusual compositional dependence characterized by a sudden doubling for x≅0.1%. In this work, we investigate the origin of this behavior by photoluminescence measurements under hydrostatic pressure in as-grown and hydrogenated Ga As0.9989 N0.0011 samples. First, we show that two nitrogen pair states emitting at 1.488 and 1.508 eV contribute mainly, but to a different extent, in determining the steep increase in the electron mass observed for x≅0.1%. Tight-binding supercell calculations assign the 1.488 eV levels to isolated N pairs and the 1.508 eV states to N pairs perturbed by a nearby N atom, in disagreement with previous attributions but consistent with the electron mass data. Second, photoluminescence at high hydrostatic pressure discloses that these N pair states show quite different rates of passivation by hydrogen. By combining these findings with the calculated lattice energies associated with each N complex, we conclude that strain relaxation is a key mechanism driving the interaction of hydrogen with N atoms in Ga As1-x Nx.

UR - https://www.scopus.com/pages/publications/43049114929

U2 - 10.1103/PhysRevB.77.155213

DO - 10.1103/PhysRevB.77.155213

M3 - Article

AN - SCOPUS:43049114929

SN - 1098-0121

VL - 77

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 15

M1 - 155213

ER -

Role of strain and properties of N clusters at the onset of the alloy limit in Ga As1-x Nx

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