GaSb-based heterostructure with buried vacuum pocket photonic crystal layer
ELECTRONICS LETTERS(2020)
摘要
The vacuum pocket retaining molecular beam epitaxial regrowth of the nano-patterned GaSb surface was demonstrated. The high contrast 2D photonic crystal layer was incorporated into the test 2 mu m emitting laser heterostructure. The photonic dispersion determined from angle-resolved electroluminescence experiment showed four well-resolved bands corresponding to the model predictions for the square lattice. The single-mode lasing near 2 mu m has been observed at the temperature corresponding to the alignment of the photonic crystal band-edge states and the quantum well gain peak. The reference devices without the photonic crystal layer emitted trivial spectra and did not lase at any temperature.
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关键词
laser modes,semiconductor heterojunctions,gallium compounds,III-V semiconductors,electroluminescence,photonic crystals,molecular beam epitaxial growth,gallium arsenide,quantum well lasers,semiconductor growth,photonic band gap,GaSb-based heterostructure,buried vacuum pocket photonic crystal layer,molecular beam epitaxial regrowth,nanopatterned GaSb surface,photonic dispersion,angle-resolved electroluminescence experiment,well-resolved bands,photonic crystal band-edge states,high contrast 2D photonic crystal layer,square lattice,single-mode lasing,emitting laser heterostructure,quantum well gain peak,wavelength 2,0 mum,GaSb,GaSb
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