This Collection invites original research articles on quantum enhanced spectroscopy, focusing on the next generation of techniques and applications that push the boundaries of traditional spectroscopy ...

Cerebral blood flow is essential for normal brain function and often perturbed in neurological disease. If one shines a ...

Physicists at Boston University have achieved what amounts to a long-sought benchmark in quantum measurement: detecting the ...

Microwave spectroscopy, interfaced with quantum chemical calculations, has emerged as a pivotal technique for elucidating the detailed structural and dynamical properties of molecules. This ...

Quantum mechanical effects are known to be easily disrupted by disturbances from the surrounding environment, commonly ...

WEST LAFAYETTE, Ind. — The same technology behind MRI images of injury or disease also powers nuclear magnetic resonance (NMR) spectroscopy, which is used to analyze biological molecules for research ...

A new spectroscopy method explores how electrons inside quantum materials respond to magnetism, uncovering hidden electronic states linked to superconductivity.

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Scientists are learning how to temporarily reshape materials by nudging their internal quantum rhythms instead of blasting them with extreme lasers. By harnessing excitons, short-lived energy pairs ...

Ultrashort mid-infrared (mid-IR) laser pulses are essential for applications such as molecular spectroscopy, nonlinear microscopy, and biomedical imaging, but their generation often relies on complex ...

Purdue University physicist Tongcang Li performs optically detected magnetic resonance spectroscopy in his lab. Li and his team at Purdue are working on materials that would improve the resolution of ...