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Updated: Aug 23, 2025

Real-Time, Two-Color Stimulated Raman Scattering Imaging of Mouse Brain for Tissue Diagnosis
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Time-resolved near backscatter imaging system on Laser MegaJoule.

V Trauchessec1, V Drouet1, C Chollet1

  • 1CEA, DAM, DIF, F-91297 Arpajon, France.

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|November 1, 2022
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Summary
This summary is machine-generated.

The new near-backscattering imaging system on the Laser MegaJoule synchronizes measurements with laser pulses. This system captures stimulated Brillouin and Raman scattered light for advanced diagnostics.

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Area of Science:

  • Plasma physics
  • Laser-induced phenomena
  • Optical diagnostics

Background:

  • The Laser MegaJoule (LMJ) facility requires advanced diagnostics for inertial confinement fusion research.
  • Understanding laser-plasma interactions, specifically light scattering, is crucial for optimizing fusion targets.

Purpose of the Study:

  • To describe the newly operational near-backscattering imaging (NBI) system on the LMJ.
  • To detail the temporally resolved measurements and their synchronization with the LMJ laser pulse.
  • To present the diagnostic commissioning results for the NBI system.

Main Methods:

  • The NBI system measures stimulated Brillouin and Raman scattered light from specific regions of the LMJ upper hemisphere.
  • Temporal resolution is achieved using a wide-open optical lens system that images a diffuser onto an optical fiber array.
  • Scattered light is recorded using a multiplexed photodiode array.

Main Results:

  • The NBI system has been successfully commissioned and synchronized with the LMJ laser pulse.
  • Temporally resolved measurements of scattered light have been demonstrated.
  • The system effectively captures light scattered from inner and outer quadruplets on the LMJ upper hemisphere.

Conclusions:

  • The near-backscattering imaging system is a valuable new diagnostic tool for the LMJ.
  • The system's ability to provide synchronized, temporally resolved measurements enhances the study of laser-plasma interactions.
  • Further utilization of the NBI system will contribute to a deeper understanding of stimulated scattering processes in ICF research.