The Daily Beam - Nov 17th, 2023
The Daily Beam | View online
November 17, 2023
Top Story
In this episode, we cover a solar device that makes dirty water clean, dual-frequency combs that hit record speeds, and how quantum light can 'hear' sounds in molecules.
Latest News
Research reveals the capabilities high-end systems must have to meet users’ needs within the complex marine environment.
Microscopy enabled by artificial intelligence (AI) will improve life sciences research and development across key therapeutic categories. Promising developments include autonomous microscopy and multiplexed imaging coupled with AI-based algorithms for cell mapping.

A high performance tunable laser with a wide tuning range and an output combining high power and high signal-to-noise ratio. It uses a new optical cavity design with precise speed control up to 200 nm/s and sub-picometer resolution and accuracy.

This quick 1-question quiz will help us to better understand our audience's preferences. Please participate now!
Combining a line laser, SWIR camera, and drone technology provides PV plant operators with a contactless solution to improve their ongoing inspection processes.
In Case You Missed It
U.K. researchers discover the quantum mechanical interplay between vibrations and photons—which may demystify interactions between light and matter at the molecular scale.
New work by a U.K. team demonstrates a new technique that enables a more detailed view of brain function, which could lead to more accurate and earlier diagnosis of diseases that afflict this complex organ.
Laser desorption mass spectrometry device may help detect signs of life in outer space by more accurately identifying materials.
FTIR microscopy is giving art and culture researchers a deeper look into artwork created centuries ago by one of Italy’s most renowned artists. And it could someday help art historians recapture the original splendor of irreplaceable works.
Researchers in Germany create a new twist on quantum ghost imaging.
Two tiny wearable microscopes for mice are generating high-resolution, high-contrast, multicolor images in real time—providing insight into signaling patterns within spinal cords of mice.

Filters in spectroscopy must perform as a unit to successfully detect signals above the background noise. Raman scattering is a weaker signal requiring high-performance filters with steeper edges, flatter transmission, isolating the signal of interest.

Upcoming Webinar: December 15th
Join us on December 15th at 11 am ET to learn why the work of fostering diversity, equity, and inclusion (DEI) is supported by advocates who empower people and fuel opportunities.