Dispersion-based pulse shaping for multiplexed two-photon fluorescence microscopy

Guillaume Labroille; Rajesh S. Pillai; Xavier Solinas; Caroline Boudoux; Nicolas Olivier; Emmanuel Beaurepaire; Manuel Joffre

doi:10.1364/OL.35.003444

Dispersion-based pulse shaping for multiplexed two-photon fluorescence microscopy

Guillaume Labroille
, Rajesh S. Pillai
, Xavier Solinas
, Caroline Boudoux
, Nicolas Olivier
, Emmanuel Beaurepaire
, Manuel Joffre

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

Abstract

We demonstrate selective two-photon excited fluorescence microscopy with shaped pulses produced with a simple yet efficient scheme based on dispersive optical components. The pulse train from a broadband oscillator is split into two subtrains that are sent through different amounts of glass. Beam recombination results in pulse-shape switching at a rate of 150 MHz. Time-resolved photon counting detection then provides two simultaneous images resulting from selective two-photon excitation, as demonstrated in a live embryo. Although less versatile than programmable pulse-shaping devices, this novel arrangement significantly improves the performance of selective microscopy using broadband shaped pulses while simplifying the experimental setup.

Original language	English
Pages (from-to)	3444-3446
Number of pages	3
Journal	Optics Letters
Volume	35
Issue number	20
DOIs	https://doi.org/10.1364/OL.35.003444
Publication status	Published - 15 Oct 2010

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title = "Dispersion-based pulse shaping for multiplexed two-photon fluorescence microscopy",

abstract = "We demonstrate selective two-photon excited fluorescence microscopy with shaped pulses produced with a simple yet efficient scheme based on dispersive optical components. The pulse train from a broadband oscillator is split into two subtrains that are sent through different amounts of glass. Beam recombination results in pulse-shape switching at a rate of 150 MHz. Time-resolved photon counting detection then provides two simultaneous images resulting from selective two-photon excitation, as demonstrated in a live embryo. Although less versatile than programmable pulse-shaping devices, this novel arrangement significantly improves the performance of selective microscopy using broadband shaped pulses while simplifying the experimental setup.",

author = "Guillaume Labroille and Pillai, \{Rajesh S.\} and Xavier Solinas and Caroline Boudoux and Nicolas Olivier and Emmanuel Beaurepaire and Manuel Joffre",

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AU - Labroille, Guillaume

AU - Pillai, Rajesh S.

AU - Solinas, Xavier

AU - Boudoux, Caroline

AU - Olivier, Nicolas

AU - Beaurepaire, Emmanuel

AU - Joffre, Manuel

PY - 2010/10/15

Y1 - 2010/10/15

N2 - We demonstrate selective two-photon excited fluorescence microscopy with shaped pulses produced with a simple yet efficient scheme based on dispersive optical components. The pulse train from a broadband oscillator is split into two subtrains that are sent through different amounts of glass. Beam recombination results in pulse-shape switching at a rate of 150 MHz. Time-resolved photon counting detection then provides two simultaneous images resulting from selective two-photon excitation, as demonstrated in a live embryo. Although less versatile than programmable pulse-shaping devices, this novel arrangement significantly improves the performance of selective microscopy using broadband shaped pulses while simplifying the experimental setup.

AB - We demonstrate selective two-photon excited fluorescence microscopy with shaped pulses produced with a simple yet efficient scheme based on dispersive optical components. The pulse train from a broadband oscillator is split into two subtrains that are sent through different amounts of glass. Beam recombination results in pulse-shape switching at a rate of 150 MHz. Time-resolved photon counting detection then provides two simultaneous images resulting from selective two-photon excitation, as demonstrated in a live embryo. Although less versatile than programmable pulse-shaping devices, this novel arrangement significantly improves the performance of selective microscopy using broadband shaped pulses while simplifying the experimental setup.

U2 - 10.1364/OL.35.003444

DO - 10.1364/OL.35.003444

M3 - Article

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JO - Optics Letters

JF - Optics Letters

IS - 20

ER -

Dispersion-based pulse shaping for multiplexed two-photon fluorescence microscopy

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