Electrical characterisation of Mg-related energy levels and compensation mechanism in Mg-doped GaN

D. Seghier; H. P. Gislason

Electrical characterisation of Mg-related energy levels and compensation mechanism in Mg-doped GaN

D. Seghier
, H. P. Gislason

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Útdráttur

Using admittance spectroscopy and optical deep-level transient spectroscopy (ODLTS) we investigate activation of acceptors in GaN:Mg samples induced by annealing. Conductance measurements reveal two peaks, H1 and H2, with activation energies 130 and 170 meV, respectively, from the valence band. The concentration of H1 is proportional to the acceptor concentration in the samples. Capacitance measurements show that H1, which we attribute to a Mg-related acceptor level, is the shallowest level in our samples. ODLTS spectra exhibit two electron traps at 0.28 and 0.58 eV from the conduction band. Their concentrations are too weak to influence the free carrier concentration. We conclude that compensation occurs through passivation of Mg acceptors by hydrogen, rather than self-compensation by new donor levels.

Upprunalegt tungumál	Enska
Síður	255-258
Síðufjöldi	4
Útgáfustaða	Útgefið - 1999
Viðburður	Proceedings of the 1998 10th Conference on Semiconducting and Insulating Materials (SIMC-X) - Berkeley, CA, USA Tímalengd: 1 jún. 1998 → 5 jún. 1998

Ráðstefna

Ráðstefna	Proceedings of the 1998 10th Conference on Semiconducting and Insulating Materials (SIMC-X)
Borg/bær	Berkeley, CA, USA
Tímabil	1/06/98 → 5/06/98

Vitna í þetta

@conference{383f267eb5694bbea91aff249f927752,

title = "Electrical characterisation of Mg-related energy levels and compensation mechanism in Mg-doped GaN",

abstract = "Using admittance spectroscopy and optical deep-level transient spectroscopy (ODLTS) we investigate activation of acceptors in GaN:Mg samples induced by annealing. Conductance measurements reveal two peaks, H1 and H2, with activation energies 130 and 170 meV, respectively, from the valence band. The concentration of H1 is proportional to the acceptor concentration in the samples. Capacitance measurements show that H1, which we attribute to a Mg-related acceptor level, is the shallowest level in our samples. ODLTS spectra exhibit two electron traps at 0.28 and 0.58 eV from the conduction band. Their concentrations are too weak to influence the free carrier concentration. We conclude that compensation occurs through passivation of Mg acceptors by hydrogen, rather than self-compensation by new donor levels.",

author = "D. Seghier and Gislason, \{H. P.\}",

year = "1999",

language = "English",

pages = "255--258",

note = "Proceedings of the 1998 10th Conference on Semiconducting and Insulating Materials (SIMC-X) ; Conference date: 01-06-1998 Through 05-06-1998",

}

TY - CONF

T1 - Electrical characterisation of Mg-related energy levels and compensation mechanism in Mg-doped GaN

AU - Seghier, D.

AU - Gislason, H. P.

PY - 1999

Y1 - 1999

N2 - Using admittance spectroscopy and optical deep-level transient spectroscopy (ODLTS) we investigate activation of acceptors in GaN:Mg samples induced by annealing. Conductance measurements reveal two peaks, H1 and H2, with activation energies 130 and 170 meV, respectively, from the valence band. The concentration of H1 is proportional to the acceptor concentration in the samples. Capacitance measurements show that H1, which we attribute to a Mg-related acceptor level, is the shallowest level in our samples. ODLTS spectra exhibit two electron traps at 0.28 and 0.58 eV from the conduction band. Their concentrations are too weak to influence the free carrier concentration. We conclude that compensation occurs through passivation of Mg acceptors by hydrogen, rather than self-compensation by new donor levels.

AB - Using admittance spectroscopy and optical deep-level transient spectroscopy (ODLTS) we investigate activation of acceptors in GaN:Mg samples induced by annealing. Conductance measurements reveal two peaks, H1 and H2, with activation energies 130 and 170 meV, respectively, from the valence band. The concentration of H1 is proportional to the acceptor concentration in the samples. Capacitance measurements show that H1, which we attribute to a Mg-related acceptor level, is the shallowest level in our samples. ODLTS spectra exhibit two electron traps at 0.28 and 0.58 eV from the conduction band. Their concentrations are too weak to influence the free carrier concentration. We conclude that compensation occurs through passivation of Mg acceptors by hydrogen, rather than self-compensation by new donor levels.

UR - https://www.scopus.com/pages/publications/0032598502

M3 - Paper

SP - 255

EP - 258

T2 - Proceedings of the 1998 10th Conference on Semiconducting and Insulating Materials (SIMC-X)

Y2 - 1 June 1998 through 5 June 1998

ER -

Electrical characterisation of Mg-related energy levels and compensation mechanism in Mg-doped GaN

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