Instead, it contains photons with wavelengths determined by the molecular vibrations. Moreover, these photons are extremely confined and are shared by a minute number of molecules," said Professor ...

Portland, Ore. — The human eye employs millions of nanoscale photoreceptors that output chemical signals when they are stimulated by photons. By reversing that process, a team of researchers in ...

Instead, it contains photons with wavelengths determined by the molecular vibrations. Moreover, these photons are extremely confined and are shared by a minute number of molecules," said Professor ...

Here, we utilize stable excitons dressed with high-energy molecular vibrations, allowing for single-photon nonlinear operation at ambient conditions. This opens new horizons for practical ...

Making the invisible, visible: New method makes mid-infrared light detectable at room temperature Quantum-derived findings could make mid-infrared light sensing much easier at room temperatures ...

Dr Chikkaraddy continued: “The most challenging aspect was to bring together three widely different length scales – the visible wavelength which are hundreds of nanometers, molecular vibrations which ...

Scientists from the University of Birmingham and the University of Cambridge have developed a new method for detecting mid-infrared (MIR) light at room temperature using quantum systems.

Molecular vibrations, when paired with near-infrared (NIR) light, have opened a new chapter in cancer treatment. Instead of relying on radiation or chemicals, scientists now use finely tuned ...

Similar to the photons that make up beams of light, indivisible quantum particles called phonons make up a beam of sound. These particles emerge from the collective motion of quadrillions of atoms ...