Exploring non-Euclidean photonics: Pseudosphere microlaser

H. Girin; S. Bittner; X. Checoury; D. Decanini; B. Dietz; A. Grigis; C. Lafargue; J. Zyss; C. Xu; P. Sebbah; M. Lebental

doi:10.1103/PhysRevA.111.043512

Exploring non-Euclidean photonics: Pseudosphere microlaser

H. Girin, S. Bittner, X. Checoury, D. Decanini, B. Dietz, A. Grigis, C. Lafargue, J. Zyss, C. Xu, P. Sebbah, M. Lebental

Department of Physics - at Bar-Ilan University

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

Classical and wave properties of microlasers with the shape of a truncated pseudosphere are investigated through experiments and numerical simulations. These pseudosphere microlasers are surface-like organic microlasers with constant negative curvature, which were fabricated with high optical quality by direct laser writing. It is shown that they behave, in many ways, similar to two-dimensional flat disks, regardless of their different Gaussian curvature. We derive the monodromy matrices for geodesics on the pseudosphere and demonstrate that the periodic geodesics are marginally stable. Actually, due to the rotational symmetry, the pseudosphere is an integrable system with marginally stable dynamics.

Original language	English
Article number	043512
Journal	Physical Review A
Volume	111
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevA.111.043512
State	Published - Apr 2025

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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10.1103/PhysRevA.111.043512

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title = "Exploring non-Euclidean photonics: Pseudosphere microlaser",

abstract = "Classical and wave properties of microlasers with the shape of a truncated pseudosphere are investigated through experiments and numerical simulations. These pseudosphere microlasers are surface-like organic microlasers with constant negative curvature, which were fabricated with high optical quality by direct laser writing. It is shown that they behave, in many ways, similar to two-dimensional flat disks, regardless of their different Gaussian curvature. We derive the monodromy matrices for geodesics on the pseudosphere and demonstrate that the periodic geodesics are marginally stable. Actually, due to the rotational symmetry, the pseudosphere is an integrable system with marginally stable dynamics.",

author = "H. Girin and S. Bittner and X. Checoury and D. Decanini and B. Dietz and A. Grigis and C. Lafargue and J. Zyss and C. Xu and P. Sebbah and M. Lebental",

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year = "2025",

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doi = "10.1103/PhysRevA.111.043512",

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T1 - Exploring non-Euclidean photonics

T2 - Pseudosphere microlaser

AU - Girin, H.

AU - Bittner, S.

AU - Checoury, X.

AU - Decanini, D.

AU - Dietz, B.

AU - Grigis, A.

AU - Lafargue, C.

AU - Zyss, J.

AU - Xu, C.

AU - Sebbah, P.

AU - Lebental, M.

PY - 2025/4

Y1 - 2025/4

N2 - Classical and wave properties of microlasers with the shape of a truncated pseudosphere are investigated through experiments and numerical simulations. These pseudosphere microlasers are surface-like organic microlasers with constant negative curvature, which were fabricated with high optical quality by direct laser writing. It is shown that they behave, in many ways, similar to two-dimensional flat disks, regardless of their different Gaussian curvature. We derive the monodromy matrices for geodesics on the pseudosphere and demonstrate that the periodic geodesics are marginally stable. Actually, due to the rotational symmetry, the pseudosphere is an integrable system with marginally stable dynamics.

AB - Classical and wave properties of microlasers with the shape of a truncated pseudosphere are investigated through experiments and numerical simulations. These pseudosphere microlasers are surface-like organic microlasers with constant negative curvature, which were fabricated with high optical quality by direct laser writing. It is shown that they behave, in many ways, similar to two-dimensional flat disks, regardless of their different Gaussian curvature. We derive the monodromy matrices for geodesics on the pseudosphere and demonstrate that the periodic geodesics are marginally stable. Actually, due to the rotational symmetry, the pseudosphere is an integrable system with marginally stable dynamics.

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U2 - 10.1103/PhysRevA.111.043512

DO - 10.1103/PhysRevA.111.043512

M3 - مقالة

SN - 2469-9926

VL - 111

JO - Physical Review A

JF - Physical Review A

IS - 4

M1 - 043512

ER -

Exploring non-Euclidean photonics: Pseudosphere microlaser

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