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AlGaN-based UV-B laser diode with a wavelength of 290 nm on 1 μm periodic concavo–convex pattern AlN on a sapphire substrate

Shunya Tanaka, Shohei Teramura, Moe Shimokawa, Kazuki Yamada, Tomoya Omori, Sho Iwayama, Kosuke Sato, Hideto Miyake, Motoaki Iwaya, Tetsuya Takeuchi, Satoshi Kamiyama, Isamu Akasaki

2021Applied Physics Express28 citationsDOI

Abstract

Abstract Room-temperature pulsed oscillation with a laser wavelength of 290 nm and a threshold current density of 35 kA cm −2 was achieved by fabricating a UV-B laser diode on a thick AlGaN film formed on a 1 μ m periodic concavo–convex pattern AlN (PCCP-AlN) on a sapphire substrate. The advantage of this method using PCCP-AlN is that it promotes the nucleation of AlGaN crystals. Planarization of this growth nucleus with AlGaN reduces the threading dislocation density at the top of the AlGaN growth layer while suppressing the formation of giant micrometer-sized hillocks and V-shaped pits that appear irregularly.

Topics & Concepts

Materials scienceHillockSapphireOptoelectronicsNucleationLaserSubstrate (aquarium)WavelengthDislocationDiodeLayer (electronics)Chemical-mechanical planarizationOpticsNanotechnologyComposite materialChemistryPhysicsOrganic chemistryGeologyOceanographyGaN-based semiconductor devices and materialsNanowire Synthesis and ApplicationsMetal and Thin Film Mechanics
AlGaN-based UV-B laser diode with a wavelength of 290 nm on 1 μm periodic concavo–convex pattern AlN on a sapphire substrate | Litcius