Quantum logic spectroscopy gives precise measurements of atoms and molecules with long-lived states by transferring information to a second trapped ion via light pulses. By detecting photon recoil ...

The TP molecule electrons were precisely observed using two-photon (2PPE) photoemission spectroscopy, scanning tunneling microscopy, and low-energy electron diffraction.

Technologies such as biomedical imaging and spectroscopy could be enhanced by a discovery in research that involved several ...

Quantum logic spectroscopy has now been significantly extended: the new method is called "photon-recoil spectroscopy" (PRS). In contrast to the original quantum logic technique, the new method ...

Dual-comb spectroscopy – absorption spectroscopy that utilizes the interference between two frequency combs – has been performed at ultraviolet wavelengths using single photons. The work could lead to ...

Photon Control, Burnaby, BC, Canada, a developer of precision measurement solutions, has announced that its research partner division Photon Control R&D has received an NSERCC (Natural Sciences & ...

A team at Kyoto University has now demonstrated another possible answer employing quantum infrared spectroscopy, using visible and infrared photon pairs in a quantum entangled state.

Optical frequency comb is one of the most powerful technologies available for modern molecular spectroscopy.

Combined, the systems will give WMU the capability to perform a variety of optical diagnostic techniques including high-resolution absorption, laser-induced fluorescence, multi-photon spectroscopy and ...

Molecular orientation is key: shining new light on electron behavior using 2-photon photoemission spectroscopy (Nanowerk News) Organic electronics is a field that has garnered significant interest in ...