The emission area of GaN light-emitting diodes can be patterned by etch-free current aperturing methods which exploit the thin and highly resistive nature of the p-doped layer in these devices. Here, the fundamental underlying electrical and optical aspects of high-resolution current aperturing are investigated theoretically. The most critical parameter for the possible resolution is the thickness d of the p-GaN layer, but the interplay of p-GaN resistivity and electrical junction characteristics is also important. A spatial resolution of 1.59d can in principle be achieved, corresponding to about 300 nm in typical epitaxial structures. Furthermore, the emission from such a small emitter will spread by about 600 nm while propagating through the p-GaN. Both values can be reduced by reducing d.
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28 February 2014
Research Article|
February 25 2014
Planar micro- and nano-patterning of GaN light-emitting diodes: Guidelines and limitations
Johannes Herrnsdorf;
Johannes Herrnsdorf
a)
Institute of Photonics, University of Strathclyde
, Glasgow G4 0NW, United Kingdom
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Enyuan Xie;
Enyuan Xie
Institute of Photonics, University of Strathclyde
, Glasgow G4 0NW, United Kingdom
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Ian M. Watson;
Ian M. Watson
Institute of Photonics, University of Strathclyde
, Glasgow G4 0NW, United Kingdom
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Nicolas Laurand;
Nicolas Laurand
Institute of Photonics, University of Strathclyde
, Glasgow G4 0NW, United Kingdom
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Martin D. Dawson
Martin D. Dawson
Institute of Photonics, University of Strathclyde
, Glasgow G4 0NW, United Kingdom
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a)
Electronic mail: johannes.herrnsdorf@strath.ac.uk
J. Appl. Phys. 115, 084503 (2014)
Article history
Received:
November 28 2013
Accepted:
February 10 2014
Citation
Johannes Herrnsdorf, Enyuan Xie, Ian M. Watson, Nicolas Laurand, Martin D. Dawson; Planar micro- and nano-patterning of GaN light-emitting diodes: Guidelines and limitations. J. Appl. Phys. 28 February 2014; 115 (8): 084503. https://doi.org/10.1063/1.4866496
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