All-fiber femtosecond laser providing 9 nJ, 50 MHz pulses at 1650 nm for three-photon microscopy

P. Cadroas; L. Abdeladim; L. Kotov; M. Likhachev; D. Lipatov; D. Gaponov; A. Hideur; M. Tang; J. Livet; W. Supatto; E. Beaurepaire; S. Février

doi:10.1088/2040-8986/aa6f72

All-fiber femtosecond laser providing 9 nJ, 50 MHz pulses at 1650 nm for three-photon microscopy

P. Cadroas
, L. Abdeladim
, L. Kotov
, M. Likhachev
, D. Lipatov
, D. Gaponov
, A. Hideur
, M. Tang
, J. Livet
, W. Supatto
, E. Beaurepaire
, S. Février

Research output: Contribution to journal › Article › peer-review

Abstract

The spectral window lying between 1.6 and 1.7 μm is interesting for in-depth multiphoton microscopy of intact tissues due to reduced scattering and absorption in this wavelength range. However, wide adoption of this excitation range will rely on the availability of robust and cost-effective high peak power pulsed lasers operating at these wavelengths. In this communication, we report on a monolithically integrated high repetition rate (50 MHz) all-fiber femtosecond laser based on a soliton self-frequency shift providing 9 nJ, 75 fs pulses at 1650 nm. We illustrate its potential for biological microscopy by recording three-photon-excited fluorescence and third-harmonic generation images of mouse nervous tissue and developing Drosophila embryos labeled with a red fluorescent protein.

Original language	English
Article number	065506
Journal	Journal of Optics (United Kingdom)
Volume	19
Issue number	6
DOIs	https://doi.org/10.1088/2040-8986/aa6f72
Publication status	Published - 1 Jun 2017
Externally published	Yes

Keywords

fiber lasers
fiber optics amplifiers and oscillators
nonlinear microscopy
temporal soliton

Access to Document

10.1088/2040-8986/aa6f72

Cite this

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title = "All-fiber femtosecond laser providing 9 nJ, 50 MHz pulses at 1650 nm for three-photon microscopy",

abstract = "The spectral window lying between 1.6 and 1.7 μm is interesting for in-depth multiphoton microscopy of intact tissues due to reduced scattering and absorption in this wavelength range. However, wide adoption of this excitation range will rely on the availability of robust and cost-effective high peak power pulsed lasers operating at these wavelengths. In this communication, we report on a monolithically integrated high repetition rate (50 MHz) all-fiber femtosecond laser based on a soliton self-frequency shift providing 9 nJ, 75 fs pulses at 1650 nm. We illustrate its potential for biological microscopy by recording three-photon-excited fluorescence and third-harmonic generation images of mouse nervous tissue and developing Drosophila embryos labeled with a red fluorescent protein.",

keywords = "fiber lasers, fiber optics amplifiers and oscillators, nonlinear microscopy, temporal soliton",

author = "P. Cadroas and L. Abdeladim and L. Kotov and M. Likhachev and D. Lipatov and D. Gaponov and A. Hideur and M. Tang and J. Livet and W. Supatto and E. Beaurepaire and S. F{\'e}vrier",

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doi = "10.1088/2040-8986/aa6f72",

language = "English",

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TY - JOUR

T1 - All-fiber femtosecond laser providing 9 nJ, 50 MHz pulses at 1650 nm for three-photon microscopy

AU - Cadroas, P.

AU - Abdeladim, L.

AU - Kotov, L.

AU - Likhachev, M.

AU - Lipatov, D.

AU - Gaponov, D.

AU - Hideur, A.

AU - Tang, M.

AU - Livet, J.

AU - Supatto, W.

AU - Beaurepaire, E.

AU - Février, S.

PY - 2017/6/1

Y1 - 2017/6/1

N2 - The spectral window lying between 1.6 and 1.7 μm is interesting for in-depth multiphoton microscopy of intact tissues due to reduced scattering and absorption in this wavelength range. However, wide adoption of this excitation range will rely on the availability of robust and cost-effective high peak power pulsed lasers operating at these wavelengths. In this communication, we report on a monolithically integrated high repetition rate (50 MHz) all-fiber femtosecond laser based on a soliton self-frequency shift providing 9 nJ, 75 fs pulses at 1650 nm. We illustrate its potential for biological microscopy by recording three-photon-excited fluorescence and third-harmonic generation images of mouse nervous tissue and developing Drosophila embryos labeled with a red fluorescent protein.

AB - The spectral window lying between 1.6 and 1.7 μm is interesting for in-depth multiphoton microscopy of intact tissues due to reduced scattering and absorption in this wavelength range. However, wide adoption of this excitation range will rely on the availability of robust and cost-effective high peak power pulsed lasers operating at these wavelengths. In this communication, we report on a monolithically integrated high repetition rate (50 MHz) all-fiber femtosecond laser based on a soliton self-frequency shift providing 9 nJ, 75 fs pulses at 1650 nm. We illustrate its potential for biological microscopy by recording three-photon-excited fluorescence and third-harmonic generation images of mouse nervous tissue and developing Drosophila embryos labeled with a red fluorescent protein.

KW - fiber lasers

KW - fiber optics amplifiers and oscillators

KW - nonlinear microscopy

KW - temporal soliton

U2 - 10.1088/2040-8986/aa6f72

DO - 10.1088/2040-8986/aa6f72

M3 - Article

AN - SCOPUS:85020240349

SN - 2040-8978

VL - 19

JO - Journal of Optics (United Kingdom)

JF - Journal of Optics (United Kingdom)

IS - 6

M1 - 065506

ER -

All-fiber femtosecond laser providing 9 nJ, 50 MHz pulses at 1650 nm for three-photon microscopy

Abstract

Keywords

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