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Optics letters
Jan 15, 2019;44 (2): 291-294.

Coherently broadened, high-repetition-rate laser for stimulated Raman scattering-spectroscopic optical coherence tomography.

Francisco E Robles, Heiko Linnenbank, Florian Mörz, Patrick Ledwig, Tobias Steinle, Harald Giessen
Author Information
PMID: 30644883 DOI: 10.1364/OL.44.000291

Abstract

We present a novel light source specifically tailored for stimulated Raman scattering-spectroscopic optical coherence tomography (SRS-SOCT), which is, to the best of our knowledge, a novel molecular imaging method that combines the molecular sensitivity of SRS with the spatial and spectral multiplexing capabilities of SOCT. The novel laser consists of an 8 W, 450 fs Yb:KGW oscillator, with a repetition rate of 40 MHz, which delivers the Stokes beam for SRS-SOCT and also pumps and amplifies an optical parametric oscillator (OPO). The output of the amplified OPO is then frequency doubled and coherently broadened using a custom-made tapered fiber that generates bandwidth pulses >40  nm, compressible to <50  fs, with the average power over 150 mW, near the shot-noise limit above 250 kHz. The broadened and compressed pulse simultaneously serves as the pump beam and SOCT light source for SRS-SOCT. This light source is assessed for SRS-SOCT, and its implications for other imaging methods are discussed.

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Grants

  1. R21 CA223853/NCI NIH HHS
Journal Article

Word Cloud

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