Optimizing supercontinuum spectro-temporal properties by leveraging machine learning towards multi-photon microscopy

Hoang, Van Thuy; Boussafa, Yassin; Sader, Lynn; Fevrier, Sébastien; Couderc, Vincent; Wetzel, Benjamin

doi:10.3389/fphot.2022.940902

Cited by 14 publications

(10 citation statements)

References 62 publications

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“…To that end, it is possible to use machine learning methods in order to have some additional control of the coherent dynamics. For example, genetic algorithms were used to prepare custom pulse-trains with an integrated pulse-splitter as to maximise the spectral density in defined wavelength ranges of the SC [ 236 , 237 ]. It was also shown that Gaussian-like peaks can be intentionally positioned in the spectrum of the generated SC, by changing the spectral phase of the incoming pulse with a genetic algorithm [ 238 ].…”

Section: Perspectives and Conclusionmentioning

confidence: 99%

Supercontinuum in integrated photonics: generation, applications, challenges, and perspectives

et al. 2023

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Frequency conversion in nonlinear materials is an extremely useful solution to the generation of new optical frequencies. Often, it is the only viable solution to realize light sources highly relevant for applications in science and industry. In particular, supercontinuum generation in waveguides, defined as the extreme spectral broadening of an input pulsed laser light, is a powerful technique to bridge distant spectral regions based on single-pass geometry, without requiring additional seed lasers or temporal synchronization. Owing to the influence of dispersion on the nonlinear broadening physics, supercontinuum generation had its breakthrough with the advent of photonic crystal fibers, which permitted an advanced control of light confinement, thereby greatly improving our understanding of the underlying phenomena responsible for supercontinuum generation. More recently, maturing in fabrication of photonic integrated waveguides has resulted in access to supercontinuum generation platforms benefiting from precise lithographic control of dispersion, high yield, compact footprint, and improved power consumption. This Review aims to present a comprehensive overview of supercontinuum generation in chip-based platforms, from underlying physics mechanisms up to the most recent and significant demonstrations. The diversity of integrated material platforms, as well as specific features of waveguides, is opening new opportunities, as will be discussed here.

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Section: Perspectives and Conclusionmentioning

confidence: 99%

Supercontinuum in integrated photonics: generation, applications, challenges, and perspectives

et al. 2023

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“…More recently, PCFs have transitioned from the confines of the laboratory to find utility in various fields such as optical communication, fiber light sources, fiber optic sensors, non-linear devices, and opto-fluidic devices [5][6][7]. Moreover, these fibers play a crucial role in the development of broad supercontinuum (SC) sources [8][9][10], which have found applications in a wide range of fields, including optical coherence tomography, optical metrology, and spectroscopy [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Structure optimization of large-solid-core photonic crystal fibers based on Ge\(_{20}\)Sb\(_{5}\)Se\(_{75}\) for optical applications

Ngoc Vo Thi Minh,

Danh Nguyen Thanh,

An Nguyen Manh

et al. 2023

Comm. Phys.

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This paper presents a new design of Ge20Sb5Se75 large-solid-core photonic crystal fiber (PCF) with a 1st-ring-removed square lattice. Using the full vector finite element method for anisotropic perfectly matched layers, we numerically examine the dispersion characteristics of the PCF in the wavelength range spanning from 1.5 µm to 6.0 µm. The results reveal that photonic crystal fibers exhibit a variety of dispersion properties, including all-normal and anomalous dispersion, featuring one or two zero dispersion wavelengths (ZDWs). We propose two designs with optimal dispersion characteristics based on our numerical simulations. These designs have small lattice constants (Ʌ = 1.0 µm; Ʌ = 1.5 µm) and low fill factors (d/Ʌ = 0.3; d/Ʌ = 0.35). Furthermore, these selected fibers offer high nonlinearity and low confinement loss, making them excellent candidates for a wide range of optical applications.

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“…It has been extensively applied in image recognition and classification [3,4], natural language processing [5], time-series prediction [6], cybersecurity [7], healthcare [8], autonomous vehicle control [9] and neuroscience research [10]. In the recent years, machine learning techniques have also been developed for different applications in optics [11][12][13], such as inverse design of photonic structures [14], and optical microscopy [15].…”

Section: Introduction -Machine Learningmentioning

confidence: 99%

Conditional Recurrent Neural Networks for broad applications in nonlinear optics

Lauria,

Saleh

2023

Preprint

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We present a novel implementation of conditional Long Short-Term Memory Recurrent Neural Networks that successfully predict the spectral evolution of a pulse in nonlinear periodically-poled waveguides. The developed networks offer large flexibility by allowing the propagation of optical pulses with range of energies and temporal widths in waveguides with different poling periods. The results show very high agreement with the traditional numerical models. Moreover, we are able to use a single network to calculate both the real and imaginary parts of the pulse complex envelope, allowing for successfully retrieving the pulse temporal and spectral evolution using the same network.

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Optimizing supercontinuum spectro-temporal properties by leveraging machine learning towards multi-photon microscopy

Cited by 14 publications

References 62 publications

Supercontinuum in integrated photonics: generation, applications, challenges, and perspectives

Supercontinuum in integrated photonics: generation, applications, challenges, and perspectives

Structure optimization of large-solid-core photonic crystal fibers based on Ge\(_{20}\)Sb\(_{5}\)Se\(_{75}\) for optical applications

Conditional Recurrent Neural Networks for broad applications in nonlinear optics

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