PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers
We investigate the properties of a soft glass dual-core photonic crystal fiber for application in multicore waveguiding with balanced gain and loss. Its base material is a phosphate glass in a P2O5-Al2O3-Yb2O3-BaO-ZnO-MgO-Na2O oxide system. The separated gain and loss cores are realized with two cor...
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sg-ntu-dr.10356-1785352024-06-28T15:39:40Z PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers Longobucco, Mattia Tai, Le Xuan The Nguyen, Viet Hung Cimek, Jarosław Pałuba, Bartosz Buczyński, Ryszard Trippenbach, Marek School of Electrical and Electronic Engineering Engineering Dual core photonic crystal fiber Phosphate glass We investigate the properties of a soft glass dual-core photonic crystal fiber for application in multicore waveguiding with balanced gain and loss. Its base material is a phosphate glass in a P2O5-Al2O3-Yb2O3-BaO-ZnO-MgO-Na2O oxide system. The separated gain and loss cores are realized with two cores with ytterbium and copper doping of the base phosphate glass. The ytterbium-doped core supports a laser (gain) activity under excitation with a pump at 1000 nm wavelength, while the CuO-doped is responsible for strong attenuation at the same wavelength. We establish conditions for an exact balance between gain and loss and investigate pulse propagation by solving a system of coupled generalized nonlinear Schrödinger equations. We predict two states of light under excitation with hyperbolic secant pulses centered at 1000 nm: 1) linear oscillation of the pulse energy between gain and loss core (P T-symmetry state), with strong power attenuation; 2) retention of the pulse in the excited gain core (broken P T-symmetry), with very modest attenuation. The optimal pulse energy levels were identified to be 100 pJ (first state) and 430 pJ (second state). Published version Ministry of Education and Training (B2022- BKA-14); Narodowe Centrum Nauki (2019/33/N/ST7/03142, PRELUDIUM-17, UMO-2022/46/A/ST7/00238, MAESTRO-14). 2024-06-25T06:44:00Z 2024-06-25T06:44:00Z 2024 Journal Article Longobucco, M., Tai, L. X. T., Nguyen, V. H., Cimek, J., Pałuba, B., Buczyński, R. & Trippenbach, M. (2024). PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers. Optics Express, 32(2), 1562-1575. https://dx.doi.org/10.1364/OE.505927 1094-4087 https://hdl.handle.net/10356/178535 10.1364/OE.505927 38297705 2-s2.0-85182523214 2 32 1562 1575 en Optics Express © 2024 Optica Publishing Group. Published by Optica Publishing Group under the terms of the Creative Commons Attribution 4.0 License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI. application/pdf |
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Engineering Dual core photonic crystal fiber Phosphate glass |
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Engineering Dual core photonic crystal fiber Phosphate glass Longobucco, Mattia Tai, Le Xuan The Nguyen, Viet Hung Cimek, Jarosław Pałuba, Bartosz Buczyński, Ryszard Trippenbach, Marek PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| description |
We investigate the properties of a soft glass dual-core photonic crystal fiber for application in multicore waveguiding with balanced gain and loss. Its base material is a phosphate glass in a P2O5-Al2O3-Yb2O3-BaO-ZnO-MgO-Na2O oxide system. The separated gain and loss cores are realized with two cores with ytterbium and copper doping of the base phosphate glass. The ytterbium-doped core supports a laser (gain) activity under excitation with a pump at 1000 nm wavelength, while the CuO-doped is responsible for strong attenuation at the same wavelength. We establish conditions for an exact balance between gain and loss and investigate pulse propagation by solving a system of coupled generalized nonlinear Schrödinger equations. We predict two states of light under excitation with hyperbolic secant pulses centered at 1000 nm: 1) linear oscillation of the pulse energy between gain and loss core (P T-symmetry state), with strong power attenuation; 2) retention of the pulse in the excited gain core (broken P T-symmetry), with very modest attenuation. The optimal pulse energy levels were identified to be 100 pJ (first state) and 430 pJ (second state). |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Longobucco, Mattia Tai, Le Xuan The Nguyen, Viet Hung Cimek, Jarosław Pałuba, Bartosz Buczyński, Ryszard Trippenbach, Marek |
| format |
Article |
| author |
Longobucco, Mattia Tai, Le Xuan The Nguyen, Viet Hung Cimek, Jarosław Pałuba, Bartosz Buczyński, Ryszard Trippenbach, Marek |
| author_sort |
Longobucco, Mattia |
| title |
PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| title_short |
PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| title_full |
PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| title_fullStr |
PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| title_full_unstemmed |
PT-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| title_sort |
pt-symmetry breaking in dual-core phosphate-glass photonic crystal fibers |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178535 |
| _version_ |
1806059812910268416 |