Fermi level pinning in heavily neutron-irradiated GaN

Polyakov, A Y; Smirnov, N B; Govorkov, A V; Markov, A V; Kolin, N G; Merkurisov, D I; Boiko, V M; Shcherbatchev, K D; Bublik, V T; Voronova, M I; Lee, I-H; Lee, C R; Pearton, S J; Dabirian, A; Osinsky, A V

doi:10.1063/1.2361157

Title: Fermi level pinning in heavily neutron-irradiated GaN

Journal Article · Wed Nov 01 00:00:00 EST 2006 · Journal of Applied Physics

DOI:https://doi.org/10.1063/1.2361157· OSTI ID:20884802

Polyakov, A Y; Smirnov, N B; Govorkov, A V; Markov, A V; Kolin, N G; Merkurisov, D I; Boiko, V M; Shcherbatchev, K D; Bublik, V T; Voronova, M I; Lee, I-H; Lee, C R; Pearton, S J; Dabirian, A; Osinsky, A V ^[1]

Institute of Rare Metals, Moscow, 119017, B. Tolmachevsky, 5 (Russian Federation)

Undoped n-GaN grown by two different metallorganic chemical vapor deposition (MOCVD) techniques, standard MOCVD and epitaxial lateral overgrowth, and Mg-doped p-GaN prepared by hydride vapor phase epitaxy and molecular beam epitaxy were irradiated with fast reactor neutrons to the high fluence of 10{sup 18} cm{sup -2}. In such heavily irradiated samples the Fermi level is shown to be pinned in a narrow interval of E{sub c}-(0.8-0.95) eV, irrespective of the starting sample properties. The Fermi level pinning position correlates with the measured Schottky barrier height in n-type GaN. The results are interpreted from the standpoint of the existence of the charge neutrality level in heavily disordered material. Based on published theoretical calculations and on deep level transient spectroscopy (measurements and lattice parameter measurements in irradiated material), it is proposed that the Fermi level could be pinned between the gallium-interstitial-related deep donors near E{sub c}-0.8 eV and nitrogen-interstitial-related acceptors near E{sub c}-0.9 eV.

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OSTI ID:: 20884802

Journal Information:: Journal of Applied Physics, Vol. 100, Issue 9; Other Information: DOI: 10.1063/1.2361157; (c) 2006 American Institute of Physics; Country of input: International Atomic Energy Agency (IAEA); ISSN 0021-8979

Country of Publication:: United States

Language:: English

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Related Subjects

36 MATERIALS SCIENCE
CHEMICAL VAPOR DEPOSITION
DEEP LEVEL TRANSIENT SPECTROSCOPY
DOPED MATERIALS
FERMI LEVEL
GALLIUM
GALLIUM NITRIDES
HYDRIDES
INTERSTITIALS
IRRADIATION
LATTICE PARAMETERS
LAYERS
MOLECULAR BEAM EPITAXY
NEUTRONS
NITROGEN
SEMICONDUCTOR MATERIALS
VAPOR PHASE EPITAXY

Title: Fermi level pinning in heavily neutron-irradiated GaN

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