Single-photon spectroscopy utilizing single-pixel binary detectors, often statistically recovers “high-dimension” spectral information from “low-dimension” photon-counting signals with ultra-high ...

Researchers at Johannes Gutenberg University Mainz (JGU) and the Helmholtz Institute Mainz (HIM) have developed a novel method for investigating the internal structure of atoms and discovered ...

Dual-comb spectroscopy employs two phase-coherent laser frequency combs whose slightly different repetition frequencies produce an interferogram from which a high-resolution, broad-band spectrum is ...

Dual-comb spectroscopy (DCS) has rapidly become a cornerstone of precision molecular detection, offering unparalleled resolution, broad spectral coverage, and fast acquisition speed. From fundamental ...

Laser spectroscopy is a powerful tool for atmospheric gas analysis, yet traditional methods face challenges due to atmospheric turbulence and significant energy loss. While dual-comb spectroscopy ...

We're excited to share that our latest project will bring our dual comb spectroscopy systems into the world of biomanufacturing! Thanks to funding from the Schmidt Sciences organization, we'll be ...

For the first time ever, scientists have used a technique called "quantum squeezing" to improve the gas sensing performance of devices known as optical frequency comb lasers. These ultra-precise ...

There are significantly different architectures for what are known as “atomic” clocks. Optically driven atomic clocks offer a new set of performance attributes. The optical atomic clocks use paired ...