Litcius/Paper detail

Diamond Raman laser and Yb fiber amplifier for in vivo multiphoton fluorescence microscopy

Shaun A. Engelmann, Annie Zhou, Ahmed M. Hassan, Michael R. Williamson, Jeremy W. Jarrett, Evan P. Perillo, Alankrit Tomar, David J. Spence, Theresa A. Jones, Andrew K. Dunn

2022Biomedical Optics Express15 citationsDOIOpen Access PDF

Abstract

Here we introduce a fiber amplifier and a diamond Raman laser that output high powers (6.5 W, 1.3 W) at valuable wavelengths (1060 nm, 1250 nm) for two-photon excitation of red-shifted fluorophores. These custom excitation sources are both simple to construct and cost-efficient in comparison to similar custom and commercial alternatives. Furthermore, they operate at a repetition rate (80 MHz) that allows fast image acquisition using resonant scanners. With our system we demonstrate compatibility with fast resonant scanning, the ability to acquire neuronal images, and the capability to image vasculature at deep locations (>1 mm) within the mouse cerebral cortex.

Topics & Concepts

Materials scienceOpticsLaserOptoelectronicsAmplifierFiber laserRaman scatteringMicroscopyRaman spectroscopyExcitationFluorescence microscopeDiamondOptical fiberFluorescenceFluorescence-lifetime imaging microscopyWavelengthOptical amplifierYtterbiumPreclinical imagingRaman laserAmplified spontaneous emissionTwo-photon excitation microscopyStimulated emissionMicroscopeAdvanced Fluorescence Microscopy TechniquesOptical Coherence Tomography ApplicationsSpectroscopy Techniques in Biomedical and Chemical Research
Diamond Raman laser and Yb fiber amplifier for in vivo multiphoton fluorescence microscopy | Litcius