Scientific Reports (Dec 2022)

Spontaneously implemented spatial coherence in vertical-cavity surface-emitting laser dot array

  • Tatsushi Hamaguchi,
  • Tomohiro Makino,
  • Kentaro Hayashi,
  • Jared A. Kearns,
  • Maho Ohara,
  • Maiko Ito,
  • Noriko Kobayashi,
  • Shouetsu Nagane,
  • Koichi Sato,
  • Yuki Nakamura,
  • Yukio Hoshina,
  • Tatsurou Jyoukawa,
  • Takumi Watanabe,
  • Yuichiro Kikuchi,
  • Eiji Nakayama,
  • Rintaro Koda,
  • Noriyuki Futagawa

DOI
https://doi.org/10.1038/s41598-022-26257-0
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 9

Abstract

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Abstract We report a self-induced spatially-coherent dot array consisting of fourteen units of vertical-cavity surface-emitting modes that exhibit spatially uniform spectra. A 47.5 µm total beam width and 0.5° narrow emission are achieved using an oblong cavity enclosed with a flat top mirror, cylindrically curved bottom mirror, and side facet. Notably, terminating the side of the cavity with a perpendicular facet enhances the horizontal propagation, which couples with the vertical resonance in each dot, similar to the case of master lasers in injection-locked lasers that delocalize the modes. Conventional semiconductor lasers, edge-emitting lasers, and vertical-cavity surface-emitting lasers have a Fabry–Pérot cavity; furthermore, emission and resonance are in identical directions, limiting the beam width to micrometers. Though the present structure has the same scheme of propagation, the right-angled facet synchronizes the modes and drastically expands the beam width.