Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers

Sahil Sahoo; Sopfy Karuseichyk; Fabien Bretenaker; Vishwa Pal

doi:10.1007/978-981-97-6164-7_4

Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers

Sahil Sahoo, Sopfy Karuseichyk, Fabien Bretenaker, Vishwa Pal

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Finding a globally stable defect-free state can be exploited for solving computationally hard optimization problems, which occur in a wide range of fields. We present the effect of amplitude-phase coupling (linewidth enhancement factor, α) on the formation of dissipative topological defects in a one-dimensional ring array of coupled lasers. We have found that the probability of topological defects (ρ) depends on several parameters, such as system size (number of lasers (N)), amplitude-phase coupling, coupling strength, and pump strength. Specifically, it increases monotonically with the system size. It is also found to be the lowest for a large amplitude-phase coupling factor. The probability of topological defects decreases significantly when the lasers operate close to the threshold. For different types of coupling between the lasers, the relation for the probability of topological defects is found as ρ_NN>ρ_NU>ρ_NNN.

Original language	English
Title of host publication	Advances in Photonics Integrated Circuits, LASER and Applications - Proceedings of PHOTONICS 2023
Editors	Varun Raghunathan, Ambarish Ghosh, Jaya Prakash
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	29-35
Number of pages	7
ISBN (Print)	9789819761630
DOIs	https://doi.org/10.1007/978-981-97-6164-7_4
Publication status	Published - 1 Jan 2024
Externally published	Yes
Event	International Conference on Photonics, PHOTONICS 2023 - Bangalore, India Duration: 5 Jul 2023 → 8 Jul 2023

Publication series

Name	Lecture Notes in Electrical Engineering
Volume	1241
ISSN (Print)	1876-1100
ISSN (Electronic)	1876-1119

Conference

Conference	International Conference on Photonics, PHOTONICS 2023
Country/Territory	India
City	Bangalore
Period	5/07/23 → 8/07/23

Keywords

Coupled lasers
Phase locking
Topological defects

Access to Document

10.1007/978-981-97-6164-7_4

Cite this

Sahoo, S., Karuseichyk, S., Bretenaker, F., & Pal, V. (2024). Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers. In V. Raghunathan, A. Ghosh, & J. Prakash (Eds.), Advances in Photonics Integrated Circuits, LASER and Applications - Proceedings of PHOTONICS 2023 (pp. 29-35). (Lecture Notes in Electrical Engineering; Vol. 1241). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-97-6164-7_4

Sahoo, Sahil ; Karuseichyk, Sopfy ; Bretenaker, Fabien et al. / Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers. Advances in Photonics Integrated Circuits, LASER and Applications - Proceedings of PHOTONICS 2023. editor / Varun Raghunathan ; Ambarish Ghosh ; Jaya Prakash. Springer Science and Business Media Deutschland GmbH, 2024. pp. 29-35 (Lecture Notes in Electrical Engineering).

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title = "Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers",

abstract = "Finding a globally stable defect-free state can be exploited for solving computationally hard optimization problems, which occur in a wide range of fields. We present the effect of amplitude-phase coupling (linewidth enhancement factor, α) on the formation of dissipative topological defects in a one-dimensional ring array of coupled lasers. We have found that the probability of topological defects (ρ) depends on several parameters, such as system size (number of lasers (N)), amplitude-phase coupling, coupling strength, and pump strength. Specifically, it increases monotonically with the system size. It is also found to be the lowest for a large amplitude-phase coupling factor. The probability of topological defects decreases significantly when the lasers operate close to the threshold. For different types of coupling between the lasers, the relation for the probability of topological defects is found as ρNN>ρNU>ρNNN.",

keywords = "Coupled lasers, Phase locking, Topological defects",

author = "Sahil Sahoo and Sopfy Karuseichyk and Fabien Bretenaker and Vishwa Pal",

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Sahoo, S, Karuseichyk, S, Bretenaker, F & Pal, V 2024, Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers. in V Raghunathan, A Ghosh & J Prakash (eds), Advances in Photonics Integrated Circuits, LASER and Applications - Proceedings of PHOTONICS 2023. Lecture Notes in Electrical Engineering, vol. 1241, Springer Science and Business Media Deutschland GmbH, pp. 29-35, International Conference on Photonics, PHOTONICS 2023, Bangalore, India, 5/07/23. https://doi.org/10.1007/978-981-97-6164-7_4

Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers. / Sahoo, Sahil; Karuseichyk, Sopfy; Bretenaker, Fabien et al.
Advances in Photonics Integrated Circuits, LASER and Applications - Proceedings of PHOTONICS 2023. ed. / Varun Raghunathan; Ambarish Ghosh; Jaya Prakash. Springer Science and Business Media Deutschland GmbH, 2024. p. 29-35 (Lecture Notes in Electrical Engineering; Vol. 1241).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Sahoo, Sahil

AU - Karuseichyk, Sopfy

AU - Bretenaker, Fabien

AU - Pal, Vishwa

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

PY - 2024/1/1

Y1 - 2024/1/1

N2 - Finding a globally stable defect-free state can be exploited for solving computationally hard optimization problems, which occur in a wide range of fields. We present the effect of amplitude-phase coupling (linewidth enhancement factor, α) on the formation of dissipative topological defects in a one-dimensional ring array of coupled lasers. We have found that the probability of topological defects (ρ) depends on several parameters, such as system size (number of lasers (N)), amplitude-phase coupling, coupling strength, and pump strength. Specifically, it increases monotonically with the system size. It is also found to be the lowest for a large amplitude-phase coupling factor. The probability of topological defects decreases significantly when the lasers operate close to the threshold. For different types of coupling between the lasers, the relation for the probability of topological defects is found as ρNN>ρNU>ρNNN.

AB - Finding a globally stable defect-free state can be exploited for solving computationally hard optimization problems, which occur in a wide range of fields. We present the effect of amplitude-phase coupling (linewidth enhancement factor, α) on the formation of dissipative topological defects in a one-dimensional ring array of coupled lasers. We have found that the probability of topological defects (ρ) depends on several parameters, such as system size (number of lasers (N)), amplitude-phase coupling, coupling strength, and pump strength. Specifically, it increases monotonically with the system size. It is also found to be the lowest for a large amplitude-phase coupling factor. The probability of topological defects decreases significantly when the lasers operate close to the threshold. For different types of coupling between the lasers, the relation for the probability of topological defects is found as ρNN>ρNU>ρNNN.

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Sahoo S, Karuseichyk S, Bretenaker F, Pal V. Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers. In Raghunathan V, Ghosh A, Prakash J, editors, Advances in Photonics Integrated Circuits, LASER and Applications - Proceedings of PHOTONICS 2023. Springer Science and Business Media Deutschland GmbH. 2024. p. 29-35. (Lecture Notes in Electrical Engineering). doi: 10.1007/978-981-97-6164-7_4

Effect of Amplitude-Phase Coupling on the Formation of Dissipative Topological Defects in Coupled Lasers

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