Activation of Mg implanted in GaN by multicycle rapid thermal annealing

Activation of Mg implanted in GaN by multicycle rapid thermal annealing

A long-standing goal of GaN device research has been the development of a reliable, well-controlled process for p-GaN formation by ion implantation. Results to date have indicated an activation of 1% or less using high-temperature rapid thermal annealing (RTA) techniques and coimplantation. Although...

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Veröffentlicht in:Electronics letters 2014-01, Vol.50 (3), p.197-198
Hauptverfasser: Anderson, T.J, Feigelson, B.N, Kub, F.J, Tadjer, M.J, Hobart, K.D, Mastro, M.A, Hite, J.K, Eddy, C.R
Format: Artikel
Sprache:eng
Schlagworte:
Activation
Annealing
Applied sciences
deep acceptor
Devices
Electronics
Exact sciences and technology
gallium compounds
Gallium nitrides
GaN:Mg
III‐V semiconductors
Ion implantation
Magnesium
Medical devices
Microelectronic fabrication (materials and surfaces technology)
multicycle rapid thermal annealing
Organic and inorganic circuits and devices
rapid thermal annealing
semiconductor doping
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
semiconductor epitaxial layers
wide band gap semiconductors
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Zusammenfassung:A long-standing goal of GaN device research has been the development of a reliable, well-controlled process for p-GaN formation by ion implantation. Results to date have indicated an activation of 1% or less using high-temperature rapid thermal annealing (RTA) techniques and coimplantation. Although Mg is a relatively deep acceptor, this is still much less than the theoretically achievable value (8.2% based on the 160 meV acceptor level). A multicycle RTA process is presented that is capable of achieving up to 8% activation of the Mg-implanted GaN. This approaches the theoretical value, and represents a significant step in GaN device research.
ISSN:0013-5194
1350-911X
1350-911X
DOI:10.1049/el.2013.3214