Joint-on-chip (JoC) technology recreates key features of human joint tissues within miniaturized microfluidic systems, including their structure, biophysical environment, and biological interactions.

Reflected electron beams at quasi-perpendicular shocks generate a cascade of instabilities, contributing to their self-confinement and acceleration.

Hertha Sponer (1895-1968) was a German physicist and quantum chemist, best known for her work in spectroscopy and her decades ...

In 1979, Lubkin traveled to China to report on the state of physics innovation post-Cultural Revolution. Archives Fellow ...

Through the SPS summer internship program, physics undergraduates like MJ Keller are placed in organizations where they apply ...

Reducing carbon emissions will require a significant scale-up of the use of sustainable aviation fuels, but extreme ...

Injecting momentum into the airflow around a car can improve the vehicle’s aerodynamics; researchers determined the best way ...

Terahertz devices have applications in biomedicine, imaging, sensing, and communication. However, rapidly tuning their ...

Currently, the gold standard of testing for HIV — the virus that causes AIDS — is based on genomic detection through ...

An improved model identifies power-reducing dust accumulation on photovoltaic modules, helping engineers know when the ...

The technique uses standing Scholte waves, a type of interfacial wave that propagates along a solid-liquid boundary, as ...

Previous methods for studying fluid-structure interactions with deformable structures — both experimental and computational — ...