Three-dimensional pyramid microlasers

Stefan Bittner; Stefan Bittner; Melissa A. Guidry; Yalei Song; Clément Lafargue; Roch Sobcyk; Dominique Decanini; Barbara Dietz; Liang Huang; Joseph Zyss; Alain Grigis; Mélanie Lebental

2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 2019),
paper ck_3_2

Three-dimensional pyramid microlasers

Stefan Bittner, Melissa A. Guidry, Yalei Song, Clément Lafargue, Roch Sobcyk, Dominique Decanini, Barbara Dietz, Liang Huang, Joseph Zyss, Alain Grigis, and Mélanie Lebental

The European Conference on Lasers and Electro-Optics 2019

Munich Germany
23–27 June 2019
ISBN: 978-1-7281-0469-0

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S. Bittner, M. A. Guidry, Y. Song, C. Lafargue, R. Sobcyk, D. Decanini, B. Dietz, L. Huang, J. Zyss, A. Grigis, and M. Lebental, "Three-dimensional pyramid microlasers," in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, OSA Technical Digest (Optica Publishing Group, 2019), paper ck_3_2.

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Abstract

Direct laser writing based on two-photon absorption allows the fabrication of almost arbitrary three-dimensional (3D) structures with sub-micron precision. This enables innovative designs for optical microcavities and -lasers in view of applications such as chemical sensing. While the complexity of 3D structures enables new functionalities, it also increases the difficulty of understanding and designing resonator properties. Semiclassical methods based on periodic orbits (POs) are a promising solution. Experiments with flat 2D organic microlasers have shown the importance and usefulness of POs to understand and control their lasing properties [1], however, the extension of these methods to three dimensions remains a challenge.

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