Abstract
(11-22) semi-polar GaN is expected to exhibit major advantages compared with current c-plane polar GaN in the fabrication of long wavelength such as green and yellow emitters. However, all the III-nitride based semi-/non- polar laser diodes (LDs) reported so far have been achieved exclusively based on homo-epitaxial growth on extremely expensive free-standing GaN substrates with a very limited size. In this paper, we have observed a stimulated emission at room temperature achieved on our semi-polar (11-22) GaN overgrown on a micro-rod arrayed template with an optimized design on m-plane sapphire. This has never been achieved previously on any semi-polar GaN grown on sapphire. Furthermore, an optical gain of 130cm−1 has been measured by means of performing a standard laser stripe-length dependent optical measurement. The values of the threshold and the optical gain obtained are comparable to those of the c-plane GaN reported so far, further validating the satisfactory crystal quality of our overgrown semi-polar (11-22) GaN on sapphire. This represents a major step towards the development of III-nitride semi-polar based LDs on sapphire, especially in the long wavelength regime.
Highlights
The last two decades have seen unprecedented progress in the field of III-nitride optoelectronics, but mainly limited to InGaN based light emitting diodes (LEDs) and laser diodes (LDs) in the blue spectral region
A number of emerging technologies based on visible LDs have been developed, such laser color display,1 smart-phones with pico-projectors, opto-genetics2 and visible light wireless communication,3 where long-wavelength green/yellow laser diodes (LDs) are the key missing components
Growth of III-nitrides along a semi-polar direction, in particular the [11-22] orientation, would be a promising solution to achieving long wavelength LDs, as such an orientation is expected to lead to both reducing so-called quantum-confined stark effect (QCSE) and increasing indium incorporation efficiency in InGaN, the two fundamental limitations posed by current c-plane III-nitrides
Summary
The last two decades have seen unprecedented progress in the field of III-nitride optoelectronics, but mainly limited to InGaN based light emitting diodes (LEDs) and laser diodes (LDs) in the blue spectral region. Stimulated emission from semi-polar [11-22] GaN overgrown on sapphire
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