Litcius/Paper detail

Full-field Brillouin microscopy based on an imaging Fourier-transform spectrometer

Carlo Bevilacqua, Robert Prevedel

2025Nature Photonics15 citationsDOIOpen Access PDF

Abstract

Abstract Brillouin microscopy is an emerging optical elastography technique that can be used to assess mechanical properties of biological samples in a three-dimensional, all-optical and hence non-contact fashion. However, the low cross-section of spontaneous Brillouin scattering produces weak signals that often necessitate prolonged exposure times or illumination dosages that are potentially harmful for biological samples. Here we present a new approach for highly multiplexed and therefore rapid spectral acquisition of the Brillouin-scattered light. Specifically, by exploiting a custom-built Fourier-transform imaging spectrometer and the symmetric properties of the Brillouin spectrum, we experimentally demonstrate full-field 2D spectral Brillouin imaging of phantoms as well as biological samples, at a throughput of up to 40,000 spectra per second, with a precision of ~70 MHz and an effective 2D image acquisition speed of 0.1 Hz over a ~300 × 300 µm 2 field of view. This represents an approximately three-orders-of-magnitude improvement in speed and throughput compared with standard confocal methods, while retaining high spatial resolution and the capability to acquire three-dimensional images of photosensitive samples in biology and medicine.

Topics & Concepts

Brillouin zoneOpticsBrillouin scatteringSpectrometerMaterials scienceBrillouin SpectroscopyMicroscopyBiological imagingFourier transformPhysicsLaserFluorescenceQuantum mechanicsAdvanced Fluorescence Microscopy TechniquesPhotoacoustic and Ultrasonic ImagingOptical Coherence Tomography Applications