A new EMBL innovation dramatically improves Brillouin microscopy, enabling faster, more efficient 3D imaging of light-sensitive samples. EMBL scientists previously developed a microscope using ...

A new approach for Brillouin microscopy has improved the speed and throughput 1000-fold, offering a quicker method to explore the mechanical properties of samples.

Abstract: We propose and experimentally demonstrate a chaotic Brillouin optical correlation domain analysis based on a differential correlation demodulation configuration. Multiple correlation peak ...

Abstract: We propose and experimentally demonstrate an improved method for detecting loss points in optical fibers using double-slope-assisted Brillouin optical correlation-domain reflectometry ...

The advance represents a 1,000-fold improvement in speed and throughput in Brillouin microscopy and provides a way to view light-sensitive organisms more efficiently. "We were on a quest to speed ...

A new study explores the development of Fiber Brillouin Amplifier Modules (FBAMs), enhancing optical frequency transfer for ...

Pushing the limits of 'custom-made' microscopy Date: February 20, 2025 Source: European Molecular Biology Laboratory Summary: Scientists developed a new microscope based on Brillouin scattering ...

An artist's representation of the new Brillouin microscopy approach that allows entire light-sheets to interact with 3D biological samples. The scattered light reveals a unique optical ...

The preclinical evaluation of drug-induced cardiotoxicity is an important stage in the drug development process; however, traditional methods for screening drug candidates, such as cardiomyocyte-based ...

一项新的EMBL创新极大地改进了布里渊显微镜（Brillouin Microscopy），使光敏样品的3D成像更快，更有效。 EMBL的科学家们之前开发了一种使用布里渊散射的显微镜，布里渊散射是一种分析光如何与自然热振动相互作用以揭示材料机械性能的技术。 在他们的最新进展中，研究人员将布里渊显微镜的速度和效率提高了大约1000倍。