Recombination of excitons bound to oxygen and silicon donors in freestanding GaN

A. Wysmolek; K. P. Korona; R. Stȩpniewski; J. M. Baranowski; J. Błoniarz; M. Potemski; R. L. Jones; D. C. Look; J. Kuhl; S. S. Park; S. K. Lee

doi:10.1103/PhysRevB.66.245317

Recombination of excitons bound to oxygen and silicon donors in freestanding GaN

A. Wysmolek, K. P. Korona, R. Stȩpniewski, J. M. Baranowski, J. Błoniarz, M. Potemski, R. L. Jones, D. C. Look, J. Kuhl, S. S. Park, S. K. Lee

Future of Semiconductors, a National Science Foundation Program

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Abstract

The neutral donor bound exciton recombination processes in freestanding GaN have been studied. The photoluminescence spectrum shows emission lines related to silicon and oxygen donors. Time-resolved luminescence allows us to correlate the principal donor bound exciton lines with their two-electron satellites. The magnetic field splitting of the two-electron lines is well described by the theory of the hydrogen atom in a magnetic field. For the oxygen donor a 1.5 meV chemical shift and a 30.8 meV effective Rydberg have been evaluated. Two-electron satellites involving excitations to the (formula presented) and (formula presented) donor states are separated by an energy of 1.0 and 1.3 meV for O and Si impurity, respectively. The temperature dependence of the two-electron emission clearly shows that this separation arises from a splitting of the ground state of the neutral donor bound exciton complex. The nature of this splitting is discussed and it is suggested that it is due to rotational states of donor bound excitons.

Original language	English
Article number	245317
Pages (from-to)	1-7
Number of pages	7
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	66
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.66.245317
State	Published - 2002

ASJC Scopus Subject Areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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Wysmolek, A., Korona, K. P., Stȩpniewski, R., Baranowski, J. M., Błoniarz, J., Potemski, M., Jones, R. L., Look, D. C., Kuhl, J., Park, S. S., & Lee, S. K. (2002). Recombination of excitons bound to oxygen and silicon donors in freestanding GaN. Physical Review B - Condensed Matter and Materials Physics, 66(24), 1-7. Article 245317. https://doi.org/10.1103/PhysRevB.66.245317

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title = "Recombination of excitons bound to oxygen and silicon donors in freestanding GaN",

abstract = "The neutral donor bound exciton recombination processes in freestanding GaN have been studied. The photoluminescence spectrum shows emission lines related to silicon and oxygen donors. Time-resolved luminescence allows us to correlate the principal donor bound exciton lines with their two-electron satellites. The magnetic field splitting of the two-electron lines is well described by the theory of the hydrogen atom in a magnetic field. For the oxygen donor a 1.5 meV chemical shift and a 30.8 meV effective Rydberg have been evaluated. Two-electron satellites involving excitations to the (formula presented) and (formula presented) donor states are separated by an energy of 1.0 and 1.3 meV for O and Si impurity, respectively. The temperature dependence of the two-electron emission clearly shows that this separation arises from a splitting of the ground state of the neutral donor bound exciton complex. The nature of this splitting is discussed and it is suggested that it is due to rotational states of donor bound excitons.",

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T1 - Recombination of excitons bound to oxygen and silicon donors in freestanding GaN

AU - Wysmolek, A.

AU - Korona, K. P.

AU - Stȩpniewski, R.

AU - Baranowski, J. M.

AU - Błoniarz, J.

AU - Potemski, M.

AU - Jones, R. L.

AU - Look, D. C.

AU - Kuhl, J.

AU - Park, S. S.

AU - Lee, S. K.

PY - 2002

Y1 - 2002

N2 - The neutral donor bound exciton recombination processes in freestanding GaN have been studied. The photoluminescence spectrum shows emission lines related to silicon and oxygen donors. Time-resolved luminescence allows us to correlate the principal donor bound exciton lines with their two-electron satellites. The magnetic field splitting of the two-electron lines is well described by the theory of the hydrogen atom in a magnetic field. For the oxygen donor a 1.5 meV chemical shift and a 30.8 meV effective Rydberg have been evaluated. Two-electron satellites involving excitations to the (formula presented) and (formula presented) donor states are separated by an energy of 1.0 and 1.3 meV for O and Si impurity, respectively. The temperature dependence of the two-electron emission clearly shows that this separation arises from a splitting of the ground state of the neutral donor bound exciton complex. The nature of this splitting is discussed and it is suggested that it is due to rotational states of donor bound excitons.

AB - The neutral donor bound exciton recombination processes in freestanding GaN have been studied. The photoluminescence spectrum shows emission lines related to silicon and oxygen donors. Time-resolved luminescence allows us to correlate the principal donor bound exciton lines with their two-electron satellites. The magnetic field splitting of the two-electron lines is well described by the theory of the hydrogen atom in a magnetic field. For the oxygen donor a 1.5 meV chemical shift and a 30.8 meV effective Rydberg have been evaluated. Two-electron satellites involving excitations to the (formula presented) and (formula presented) donor states are separated by an energy of 1.0 and 1.3 meV for O and Si impurity, respectively. The temperature dependence of the two-electron emission clearly shows that this separation arises from a splitting of the ground state of the neutral donor bound exciton complex. The nature of this splitting is discussed and it is suggested that it is due to rotational states of donor bound excitons.

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Recombination of excitons bound to oxygen and silicon donors in freestanding GaN

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