Wang, T.; Ebrahim, MH.; Afxenti, I.; Adamou, D.; Dada, AC.; Li, R.; Leng, Y.... (2023). Cumulative Effects in 100 kHz Repetition-Rate Laser-Induced Plasma Filaments in Air. Advanced Photonics Research. 4(3). https://doi.org/10.1002/adpr.202200338
Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/203513
Título:
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Cumulative Effects in 100 kHz Repetition-Rate Laser-Induced Plasma Filaments in Air
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Autor:
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Wang, Tie-Jun
Ebrahim, Mehdi H.
Afxenti, Ivi
Adamou, Dionysis
Dada, Adetunmise C.
Li, Ruxin
Leng, Yuxin
Diels, Jean-Claude
Faccio, Daniele
Couairon, Arnaud
Milián Enrique, Carles
Clerici, Matteo
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Entidad UPV:
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Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros Industriales - Escola Tècnica Superior d'Enginyers Industrials
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Fecha difusión:
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Resumen:
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[EN] Cumulative effects are crucial for applications of laser filaments, such as for the remote transfer of energy and the control of electric discharges. Up to now, studies of cumulative effects in the air of high-repetition-rate ...[+]
[EN] Cumulative effects are crucial for applications of laser filaments, such as for the remote transfer of energy and the control of electric discharges. Up to now, studies of cumulative effects in the air of high-repetition-rate pulse trains have been performed at lower rates than 10 kHz. Herein, the nonlinear effects associated with short plasma filaments produced by pulses of moderate energy (0.4 mJ per pulse) and repetition rates up to 100 kHz are experimentally characterized. With increasing repetition rate, a decrease in absorption, fluorescence emission, and breakdown voltage and concurrently an increase in peak intensity and third-harmonic-generation efficiency are observed. Hydrodynamic simulations of the heated gas show that the observed decreases are directly related to a quasi-stationary state of reduced gas density in the filament. However, further investigations are required to fully understand the physics underpinning the observed sharp reduction of the breakdown voltage at 100 kHz repetition rates. The results may prove relevant for energy and information delivery applications by laser-induced air waveguide or electric discharge and lightning control.
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Palabras clave:
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Filaments
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Fluorescence
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High-repetition-rate
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Hydrodynamic models
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Light-matter interaction
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Plasma
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Derechos de uso:
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Reconocimiento (by)
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Fuente:
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Advanced Photonics Research. (eissn:
2699-9293
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DOI:
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10.1002/adpr.202200338
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Editorial:
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Wiley-VCH
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Versión del editor:
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https://doi.org/10.1002/adpr.202200338
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Código del Proyecto:
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info:eu-repo/grantAgreement/EPSRC//EP%2FS001573%2F1/
...[+]
info:eu-repo/grantAgreement/EPSRC//EP%2FS001573%2F1/
info:eu-repo/grantAgreement/NASA//80NSSC22PB067/
info:eu-repo/grantAgreement/STCSM//21511105000/
info:eu-repo/grantAgreement/Royal Society, Reino Unido//RGS\R1\201365/
info:eu-repo/grantAgreement/CAS//181231KYSB20200040/
info:eu-repo/grantAgreement/CAS//XDB16/
info:eu-repo/grantAgreement/CAS//181231KYSB20200033/
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Agradecimientos:
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TJW acknowledges the support from NSAF (Grant no. U2130123), Strategic Priority Research Program of the Chinese Academy of Sciences (Grant no. XDB16), International Partnership Program of Chinese Academy of Sciences (Grant ...[+]
TJW acknowledges the support from NSAF (Grant no. U2130123), Strategic Priority Research Program of the Chinese Academy of Sciences (Grant no. XDB16), International Partnership Program of Chinese Academy of Sciences (Grant nos. 181231KYSB20200033 and 181231KYSB20200040), Shanghai Science and Technology Program (Grant no. 21511105000), and Oversea Training Program of Ministry of Science and Technology. MC acknowledges the support from UK Research and Innovation (UKRI) and the UK Engineering and Physical Sciences Research Council (EPSRC) (Fellowship "In-Tempo" EP/S001573/1), and the Royal Society (RGS\R1\201365). JCD acknowledges the support of NASA (SBIR grant 80NSSC22PB067). The authors wish to acknowledge Drs. Jean-Pierre Wolf, Jerome Kasparaian, Clara Saraceno, and Olga Kosareva for enlightening discussions.
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Tipo:
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Artículo
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