Lasing at exciton transition in optically pumped gallium nitride nanopillars | Zendy

Ming-Hua Lo | Zendy; YuhJen Cheng | Zendy; Mei-Chun Liu | Zendy; HaoChung Kuo | Zendy; Shing-Chung Wang | Zendy

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Lasing at exciton transition in optically pumped gallium nitride nanopillars

Author(s) -

Ming-Hua Lo,

YuhJen Cheng,

Mei-Chun Liu,

HaoChung Kuo,

Shing-Chung Wang

Publication year - 2011

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.19.017960

Subject(s) - nanopillar , lasing threshold , materials science , optoelectronics , gallium nitride , amplified spontaneous emission , exciton , spontaneous emission , gain switching , stimulated emission , excited state , wide bandgap semiconductor , optics , wavelength , laser , nanotechnology , nanostructure , atomic physics , physics , layer (electronics) , condensed matter physics

We report the observation of room temperature lasing action in optically pumped GaN nanopillars. The nanopillars were fabricated by patterned etching and crystalline regrowth from a GaN substrate. When nanopillars were optically excited, a narrow emission peak emerged from the broad spontaneous emission background. The increasing rate is nine times faster than that of the spontaneous emission background, showing the onset of lasing action. The lasing occurs right at the center of spontaneous emission rather than the often reported redshifted wavelength. A spectroscopic ellipsometry analysis indicates that the gain of lasing action is provided by exciton transition.

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