An international team of engineers and physicists have found a way to use quantum light to improve the performance of cutting-edge spectroscopy. Their new technique enables measurements of infrared ...

Engineering researchers have successfully developed a quantum microprocessor chip for molecular spectroscopy simulation of actual large-structured and complex molecules. Quantum simulation enables ...

Quantum imaging and nonlinear spectroscopy unite quantum optics and nonlinear photonics to overcome classical limits in spatial resolution, sensitivity and spectral range. By exploiting quantum ...

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 ...

Quantum spectroscopy of molecular vibrations harnesses quantum‐mechanical techniques to probe and characterise the vibrational energy levels of molecules. By combining high‐resolution infrared, Raman ...

Physicists at University College Cork have developed a new approach in the search for a quantum spin liquid, a long-sought ...

Our group is actively engaged at the interface of quantum optics with physical chemistry. In this research, we manipulate the properties of light at the single photon or few photon level. By employing ...

Our team aims to develop novel quantum light sources in the terahertz and infrared regions and, by exploiting spectroscopy based on new concepts enabled by these sources, to elucidate quantum states ...

Physicists have developed a new approach in the search for a 'quantum spin liquid', a long sought state of quantum matter resembling a magnetic liquid whose quantum properties mean it never freezes.

Quantum simulation enables scientists to simulate and study complex systems that are challenging or even impossible using classical computers across various fields, including financial modelling, ...