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Being Exceptional in Higher Dimensions
Study shows that the strong coupling of photons and spin waves in magnetic materials creates an “exceptional surface” for new phenomena, potentially advancing the field of information processing.
Study shows that the strong coupling of photons and spin waves in magnetic materials creates an “exceptional surface” for new phenomena, potentially advancing the field of information processing.
Detecting gaseous methanol and acetic acid released from plants sheds light on plant cell wall composition changes throughout leaf development.
New method enables fundamental liquid studies at nanoscale
Innovative technology improves isotope production yields and enhances capabilities for advanced research on new isotopes for medical applications.
Novel nanofabrication makes nonlinear photon play possible in 3D.
Oil-free, nanoscale solid lubricant creates ultra-slippery layer between sliding surfaces in machinery
Team combines many innovative accelerator accomplishments to keep gold ions cold and advance nuclear physics research.
Soils contain a large diversity of unknown RNA viruses that infect fungi and possibly plants and animals.
Researchers create novel metallabiphenylene analogues, advancing a key concept in organic chemistry.
Collaboration between experiment and theory expands fundamental understanding of the chemistry of exotic radioactive heavy elements.
New one-step method creates hollow nanostructures that can carry and deliver nanoscale cargos for medicine and other applications.
3D magnetic fields can help control the plasma edge to prevent damaging bursts of heat and particles from fusion plasma.