The technology could save the lives of COVID-19 patients when more advanced ventilators are too expensive or not available.

Blandford’s major contributions range from energetic jets ripping forth from colossal black holes to cosmic “magnifying” glasses to gravitational waves.

Physicists at SLAC and Stanford propose that the influence of cosmic rays on early life may explain nature’s preference for a uniform “handedness” among biology’s critical molecules.

The SLAC/Stanford scientists are among 120 new members of an organization that advises the nation on science and technology issues.

Just as engineers once compressed some of the power of room-sized mainframes into desktop PCs, so too have the researchers shown how to pack some of the punch delivered by today’s ginormous particle accelerators onto a tiny silicon chip.

The Dark Energy Spectroscopic Instrument begins final testing, setting the stage for a 5-year survey that will analyze the light of 35 million galaxies.

Early-career physicist Jonathan LeyVa helps build one of the world’s most sensitive dark matter detectors.

An “out there” theory inspired the development of the Dark Matter Radio, a device that could explain the mysterious matter that makes up 85 percent of the mass of our universe.

William Madia, Stanford vice president for SLAC since 2008, plans to retire at the end of September.

Two projects will look for ways to link individual quantum devices into networks for quantum computing and ultrasensitive detectors.

SLAC/Stanford scientists and their colleagues find a new way to efficiently convert CO2 into the building block for sustainable liquid fuels.

A SLAC/Stanford study of the population of satellite galaxies orbiting the Milky Way provides new clues about the particle nature of dark matter.