The resonant excitation of Bloch Surface Waves (BSWs) in dielectric one-dimensional photonic crystals is becoming a realistic photonic solution for surface integration in many domains, from spectroscopy to local field management. Bringing BSWs to ultrafast and nonlinear regimes requires a deep knowledge of the effects that the photonic crystal dispersion and the resonant surface wave excitation have on the ultrashort laser pulses. We report on the experimental evidence of spectral and temporal modifications of the radiation leaving a planar one-dimensional photonic crystal after coupling to BSWs. In such a resonant condition, a characteristic long temporal tail is observed in the outgoing pulses. Observations are performed by employing both frequency-resolved optical gating and field cross-correlation techniques.
Temporal and spectral signatures of the interaction between ultrashort laser pulses and Bloch surface waves / Doughan, Isaac; Asilevi, Atsu L.; Halder, Atri; Guo, Tian-Long; Mogni, Erika; Celebrano, Michele; Finazzi, Marco; Pellegrini, Giovanni; Biagioni, Paolo; Descrovi, Emiliano; Roussey, Matthieu; Turunen, Jari. - In: APL PHOTONICS. - ISSN 2378-0967. - ELETTRONICO. - 9:4(2024). [10.1063/5.0183704]
Temporal and spectral signatures of the interaction between ultrashort laser pulses and Bloch surface waves
Descrovi, Emiliano;Roussey, Matthieu;
2024
Abstract
The resonant excitation of Bloch Surface Waves (BSWs) in dielectric one-dimensional photonic crystals is becoming a realistic photonic solution for surface integration in many domains, from spectroscopy to local field management. Bringing BSWs to ultrafast and nonlinear regimes requires a deep knowledge of the effects that the photonic crystal dispersion and the resonant surface wave excitation have on the ultrashort laser pulses. We report on the experimental evidence of spectral and temporal modifications of the radiation leaving a planar one-dimensional photonic crystal after coupling to BSWs. In such a resonant condition, a characteristic long temporal tail is observed in the outgoing pulses. Observations are performed by employing both frequency-resolved optical gating and field cross-correlation techniques.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2987603