Ultra-slow dynamics of free-running ring lasers: towards a minimal model

Giovanni Giacomelli; Antonio Politi

doi:10.48550/arXiv.2311.14504

Ultra-slow dynamics of free-running ring lasers: towards a minimal model

Giovanni Giacomelli, Antonio Politi

Physics

National Research Council of Italy

Research output: Working paper › Preprint

Abstract

The dynamics of a resonant, free-running ring laser, in the common case of a fast relaxation of the atomic polarization, is unexpectedly highly singular. As shown in [Phys. Rev. Research, {\bf 5}, 023059 (2023)], this is due to the closeness to a pure Hamiltonian dynamics ruled by a nonlinear wave equation, herein named Klein-Gordon-Toda model. In this paper, we derive a quasi-Hamiltonian model which allows describing realistic systems. In particular, we identify two nearly conserved, energy-like quantities, which ``naturally" exhibit an ultra-slow dynamics confirmed and highlighted by numerical simulations. A minimal version of the quasi-Hamiltonian model is finally derived, which does not only reproduce the laser thresholds, but also helps understanding the origin of the nearly integrable character of the laser dynamics.

Original language	English
Publisher	ArXiv
Number of pages	32
DOIs	https://doi.org/10.48550/arXiv.2311.14504
Publication status	Published - 24 Nov 2023

Bibliographical note

ACKNOWLEDGMENTS
We warmly thank S. Yanchuk for several discussions on this highly complex setup.

Access to Document

10.48550/arXiv.2311.14504Licence: CC BY

https://arxiv.org/pdf/2311.14504.pdfLicence: CC BY

Cite this

@techreport{bc783c5ef842425a972e2fe13d6d54c2,

title = "Ultra-slow dynamics of free-running ring lasers: towards a minimal model",

abstract = "The dynamics of a resonant, free-running ring laser, in the common case of a fast relaxation of the atomic polarization, is unexpectedly highly singular. As shown in [Phys. Rev. Research, {\bf 5}, 023059 (2023)], this is due to the closeness to a pure Hamiltonian dynamics ruled by a nonlinear wave equation, herein named Klein-Gordon-Toda model. In this paper, we derive a quasi-Hamiltonian model which allows describing realistic systems. In particular, we identify two nearly conserved, energy-like quantities, which ``naturally{"} exhibit an ultra-slow dynamics confirmed and highlighted by numerical simulations. A minimal version of the quasi-Hamiltonian model is finally derived, which does not only reproduce the laser thresholds, but also helps understanding the origin of the nearly integrable character of the laser dynamics.",

author = "Giovanni Giacomelli and Antonio Politi",

note = "ACKNOWLEDGMENTS We warmly thank S. Yanchuk for several discussions on this highly complex setup.",

year = "2023",

month = nov,

day = "24",

doi = "10.48550/arXiv.2311.14504",

language = "English",

publisher = "ArXiv",

type = "WorkingPaper",

institution = "ArXiv",

}

TY - UNPB

T1 - Ultra-slow dynamics of free-running ring lasers

T2 - towards a minimal model

AU - Giacomelli, Giovanni

AU - Politi, Antonio

N1 - ACKNOWLEDGMENTS We warmly thank S. Yanchuk for several discussions on this highly complex setup.

PY - 2023/11/24

Y1 - 2023/11/24

N2 - The dynamics of a resonant, free-running ring laser, in the common case of a fast relaxation of the atomic polarization, is unexpectedly highly singular. As shown in [Phys. Rev. Research, {\bf 5}, 023059 (2023)], this is due to the closeness to a pure Hamiltonian dynamics ruled by a nonlinear wave equation, herein named Klein-Gordon-Toda model. In this paper, we derive a quasi-Hamiltonian model which allows describing realistic systems. In particular, we identify two nearly conserved, energy-like quantities, which ``naturally" exhibit an ultra-slow dynamics confirmed and highlighted by numerical simulations. A minimal version of the quasi-Hamiltonian model is finally derived, which does not only reproduce the laser thresholds, but also helps understanding the origin of the nearly integrable character of the laser dynamics.

AB - The dynamics of a resonant, free-running ring laser, in the common case of a fast relaxation of the atomic polarization, is unexpectedly highly singular. As shown in [Phys. Rev. Research, {\bf 5}, 023059 (2023)], this is due to the closeness to a pure Hamiltonian dynamics ruled by a nonlinear wave equation, herein named Klein-Gordon-Toda model. In this paper, we derive a quasi-Hamiltonian model which allows describing realistic systems. In particular, we identify two nearly conserved, energy-like quantities, which ``naturally" exhibit an ultra-slow dynamics confirmed and highlighted by numerical simulations. A minimal version of the quasi-Hamiltonian model is finally derived, which does not only reproduce the laser thresholds, but also helps understanding the origin of the nearly integrable character of the laser dynamics.

U2 - 10.48550/arXiv.2311.14504

DO - 10.48550/arXiv.2311.14504

M3 - Preprint

BT - Ultra-slow dynamics of free-running ring lasers

PB - ArXiv

ER -

Ultra-slow dynamics of free-running ring lasers: towards a minimal model

Abstract

Bibliographical note

Access to Document

Fingerprint

Cite this