Researchers have developed a highly sensitive detector for identifying molecules via their infrared vibrational "fingerprint.

Phonon quasi-particles have been monumental in microscopically understanding thermodynamics and transport properties in condensed matter for decades. Phonons have one-to-one correspondence with ...

Researchers have unveiled a highly sensitive detector capable of identifying molecules by analyzing their infrared ...

elphmod is a collection of Python modules to handle coupled tight-binding and mass-spring models derived from first principles. It provides interfaces with popular simulation software such as Quantum ...

Abstract: We report phonon dressing-induced dipole moment alignment of nonpolar ions. Out-of-phase Fluorescence (FL) and in-phase Spontaneous Four-wave Mixing (SFWM) peak alignment are exhibited owing ...

The compact design and room-temperature operation of the device hold promise for developing ultra-compact platforms for ...

Scientists have created a groundbreaking chip-sized device that can identify molecules using their unique infrared ...

Illustration of an on-chip molecular vibration sensor based on a graphene IR detector, where phonon polaritons (bright rays) ...

A team of physicists at ETH Zürich has built the first-ever working mechanical qubit. In their paper published in the journal ...

Researchers from Spain develop an ideal device for molecular detection using advanced infrared techniques.

Recent research published in the Journal of Advanced Ceramics proposed a new design strategy focusing on mean cation radius ...