Cherenkov radiation and scattering of external dispersive waves by two-color solitons

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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Organisationseinheiten

Externe Organisationen

  • Max-Planck-Institut für Intelligente Systeme (Stuttgart)
  • St. Petersburg National Research University of Information Technologies, Mechanics and Optics (ITMO)
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Details

OriginalspracheEnglisch
Aufsatznummer053514
FachzeitschriftPhysical Review A
Jahrgang106
Ausgabenummer5
PublikationsstatusVeröffentlicht - 22 Nov. 2022

Abstract

For waveguides with two separate regions of anomalous dispersion, it is possible to create a quasistable two-color solitary wave. In this paper, we consider how those waves interact with dispersive radiation, i.e., both the generation of Cherenkov radiation and the scattering of incident dispersive waves. We derive the analytic resonance conditions and verify them through numeric experiments. We also report incident radiation driving the internal oscillations of the soliton during the scattering process in the case of an intense incident radiation. We generalize the resonance conditions for the case of an oscillating soliton and demonstrate how one can use the scattering process to probe and excite an internal mode of two-color soliton molecules.

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Cherenkov radiation and scattering of external dispersive waves by two-color solitons. / Oreshnikov, Ivan; Melchert, Oliver; Willms, Stephanie et al.
in: Physical Review A, Jahrgang 106, Nr. 5, 053514, 22.11.2022.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Oreshnikov I, Melchert O, Willms S, Bose S, Babushkin I, Demircan A et al. Cherenkov radiation and scattering of external dispersive waves by two-color solitons. Physical Review A. 2022 Nov 22;106(5):053514. doi: 10.48550/arXiv.2207.03541, 10.1103/PhysRevA.106.053514
Oreshnikov, Ivan ; Melchert, Oliver ; Willms, Stephanie et al. / Cherenkov radiation and scattering of external dispersive waves by two-color solitons. in: Physical Review A. 2022 ; Jahrgang 106, Nr. 5.
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title = "Cherenkov radiation and scattering of external dispersive waves by two-color solitons",
abstract = "For waveguides with two separate regions of anomalous dispersion, it is possible to create a quasistable two-color solitary wave. In this paper, we consider how those waves interact with dispersive radiation, i.e., both the generation of Cherenkov radiation and the scattering of incident dispersive waves. We derive the analytic resonance conditions and verify them through numeric experiments. We also report incident radiation driving the internal oscillations of the soliton during the scattering process in the case of an intense incident radiation. We generalize the resonance conditions for the case of an oscillating soliton and demonstrate how one can use the scattering process to probe and excite an internal mode of two-color soliton molecules.",
author = "Ivan Oreshnikov and Oliver Melchert and Stephanie Willms and Surajit Bose and Ihar Babushkin and Ayhan Demircan and Uwe Morgner and Alexey Yulin",
note = "Funding Information: O.M., S.W., I.B., A.D., and U.M. acknowledge financial support from Deutsche Forschungsgemeinschaft (DFG) under Germany's Excellence Strategy within the Cluster of Excellence PhoenixD (Photonics, Optics, and Engineering–Innovation Across Disciplines) (EXC 2122, Project No. 390833453). S.B. acknowledges financial support from DFG under Germany's Excellence Strategy within the Cluster of Excellence QuantumFrontiers (EXC 2123, Project No. 390837967). A.Y. acknowledges financial support from Priority 2030 Academic Leadership Program and Goszadanie Grant No. 2019-1246. I.B. also acknowledges support from DFG (Project No. BA4156/4-2). U.M. also acknowledges support from DFG (Project No. MO 850-20/1). ",
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AU - Oreshnikov, Ivan

AU - Melchert, Oliver

AU - Willms, Stephanie

AU - Bose, Surajit

AU - Babushkin, Ihar

AU - Demircan, Ayhan

AU - Morgner, Uwe

AU - Yulin, Alexey

N1 - Funding Information: O.M., S.W., I.B., A.D., and U.M. acknowledge financial support from Deutsche Forschungsgemeinschaft (DFG) under Germany's Excellence Strategy within the Cluster of Excellence PhoenixD (Photonics, Optics, and Engineering–Innovation Across Disciplines) (EXC 2122, Project No. 390833453). S.B. acknowledges financial support from DFG under Germany's Excellence Strategy within the Cluster of Excellence QuantumFrontiers (EXC 2123, Project No. 390837967). A.Y. acknowledges financial support from Priority 2030 Academic Leadership Program and Goszadanie Grant No. 2019-1246. I.B. also acknowledges support from DFG (Project No. BA4156/4-2). U.M. also acknowledges support from DFG (Project No. MO 850-20/1).

PY - 2022/11/22

Y1 - 2022/11/22

N2 - For waveguides with two separate regions of anomalous dispersion, it is possible to create a quasistable two-color solitary wave. In this paper, we consider how those waves interact with dispersive radiation, i.e., both the generation of Cherenkov radiation and the scattering of incident dispersive waves. We derive the analytic resonance conditions and verify them through numeric experiments. We also report incident radiation driving the internal oscillations of the soliton during the scattering process in the case of an intense incident radiation. We generalize the resonance conditions for the case of an oscillating soliton and demonstrate how one can use the scattering process to probe and excite an internal mode of two-color soliton molecules.

AB - For waveguides with two separate regions of anomalous dispersion, it is possible to create a quasistable two-color solitary wave. In this paper, we consider how those waves interact with dispersive radiation, i.e., both the generation of Cherenkov radiation and the scattering of incident dispersive waves. We derive the analytic resonance conditions and verify them through numeric experiments. We also report incident radiation driving the internal oscillations of the soliton during the scattering process in the case of an intense incident radiation. We generalize the resonance conditions for the case of an oscillating soliton and demonstrate how one can use the scattering process to probe and excite an internal mode of two-color soliton molecules.

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JO - Physical Review A

JF - Physical Review A

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