Aladin Şura scite author profile

Aladin Şura

3Publications

2Citation Statements Received

34Citation Statements Given

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Bilkent University

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Analogy of harmonic modelocked pulses to trapped Brownian particles improves laser performance

et al. 2023

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High repetition rate ultrafast lasers are needed for diverse applications. Harmonic modelocking, where multiple identical, equidistant pulses circulate in the cavity, reaches beyond the practical limitations of reducing the cavity length. However, it suffers from stochastic deviations that manifest as supermodes in the radio-frequency spectrum and difficulties in maintaining the same harmonic state, often coupled with tradeoffs in pulse energy, duration, or noise performance. Here, we first show that deviations in the temporal positions of the pulses contribute disproportionately more to the supermodes than deviations in their amplitudes. Then, we argue that these fluctuations are analogous to those of trapped Brownian particles. The analogy reveals that supermodes are suppressed by stronger spectral filtering, which corresponds to fluid viscosity, and higher pulse energy reduces the noise, akin to Brownian particle analogy improves harmonic modelocking lower temperature. Guided by this intuitive picture, we construct a Ybfibre laser incorporating strong filtering and high intracavity energies by limiting nonlinear polarisation evolution to a short section of ordinary fibre. The rest of the all-fibre cavity comprises polarisation-maintaining fibre, which additionally improves environmental robustness. We report record-high supermode suppression ratios, reaching 80 dB, excellent longterm and environmental stability, and pulse energy, duration, and noise characteristics that are similar to fundamentally modelocked lasers.

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Analogy of harmonic modelocked pulses to trapped Brownian particles improves laser performance

Laçin

Repgen

Şura

et al. 2023

Preprint

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High repetition rate ultrafast lasers are needed for diverse applications. Harmonic modelocking, where multiple identical, equidistant pulses circulate in the cavity, reaches beyond the practical limitations of reducing the cavity length. However, it suffers from stochastic deviations that manifest as supermodes in the radio-frequency spectrum and difficulties in maintaining the same harmonic state, often coupled with trade-offs in pulse energy, duration, or noise performance. Here, we first show that deviations in the temporal positions of the pulses contribute disproportionately more to the supermodes than deviations in their amplitudes. Then, we argue that these fluctuations are analogous to those of trapped Brownian particles. The analogy reveals that supermodes are suppressed by stronger spectral filtering, which corresponds to fluid viscosity, and higher pulse energy reduces the noise, akin to lower temperature. Guided by this intuitive picture, we construct a Yb-fibre laser incorporating strong filtering and high intracavity energies by limiting nonlinear polarisation evolution to a short section of ordinary fibre. The rest of the all-fibre cavity comprises polarisation-maintaining fibre, which additionally improves environmental robustness. We report record-high supermode suppression ratios, reaching 80 dB, excellent long-term and environmental stability, and pulse energy, duration, and noise characteristics that are similar to fundamentally modelocked lasers.

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Hierarchical slaving for superior harmonic modelocking

Şura

İlday

2022

EPJ Web Conf.

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Aladin Şura

Analogy of harmonic modelocked pulses to trapped Brownian particles improves laser performance

Analogy of harmonic modelocked pulses to trapped Brownian particles improves laser performance

Hierarchical slaving for superior harmonic modelocking

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