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

Using muon spin rotation spectroscopy, researchers from Japan and Canada have successfully captured the rapid conversion of ...

Molecular spectroscopy is a powerful technique used to study the interactions of light with matter, providing insights into the structure and dynamics of molecules. A key aspect of this field is the ...

The fields of computational chemistry and molecular spectroscopy have converged to form a robust framework for investigating molecular structures, properties and reactivity. Advanced quantum ...

When a laser experiment fails to produce the expected flash of light, most researchers would assume something went wrong with ...

Learn how spectroscopy facilitates non-invasive, real-time bio-monitoring, enhancing decision-making in healthcare, ...

Scientists have found a way to see ultrafast molecular interactions inside liquids using an extreme laser technique once ...

The new approach produces extremely accurate and stable frequencies and could significantly enhance precision timekeeping and high-resolution atomic and molecular spectroscopy. WASHINGTON — ...

In this interview, Dr. Suja Sukumaran explores the significance, versatility, and future advancements of FTIR spectroscopy, highlighting its pivotal role in material analysis, quality control, and ...

Researchers have developed a low-cost method for the analysis of interfacial molecules by combining ATR-IR with precise gap-control and multi-variate data analysis. A novel spectroscopic method ...

Using muon spin rotation spectroscopy, researchers from Japan and Canada successfully captured the rapid conversion of an ...