Physics

Researchers at MIT and elsewhere have combined the power of a super collider with techniques of laser spectroscopy to precisely measure a short-lived radioactive molecule, radium monofluoride, for the first time.

Physicists measure a short-lived radioactive molecule for first time

Molecules containing heavy and deformed radioactive nuclei may help scientists to measure symmetry-violating phenomena and identify signs of dark matter.

May 27, 2020

MIT researchers have discovered a phenomenon that could be harnessed to control the movement of tiny particles floating in suspension. This approach, which requires simply applying an external electrical field, may ultimately lead to new ways of performing certain industrial or medical processes that require separation of tiny suspended materials.

Study finds electrical fields can throw a curveball

Particle-scale phenomenon akin to the swerving of a curveball could allow selective separation of suspended nanomaterials.

May 26, 2020

Researchseminars.org serves as a sort of crowdsourced Ticketmaster for science talks. Instead of featuring upcoming shows and concerts, the new site lists more than 1,000 free, upcoming seminars hosted online by more than 115 institutions around the world.

A Ticketmaster for science seminars

Despite physical isolation, MIT mathematicians build one-stop portal to online talks around the world.

May 26, 2020

2020 MIT Fulbright scholars include Sandra Walter, Srimayi Tenali, William Pinney, Talia Khan, Anshula Gandhi, Booker Schelhaas, Christien Williams, Ivy Li, Kedi Hu, and Max Kessler.

Eleven from MIT awarded 2020 Fulbright Fellowships

Graduating seniors and recent alumni will spend upcoming year abroad on Fulbright grants.

May 22, 2020

Scientists prepare to deploy an underway CTD from the back deck of a research vessel.

Towable sensor free-falls to measure vertical slices of ocean conditions

Instrument may help scientists assess the ocean’s response to climate change.

May 20, 2020

“With all of us stuck at home or in remote locations, I’m not sure that anyone is feeling particularly inspired right now, but this pandemic will eventually end, and sometimes getting lost in the intricacies of Maxwell’s equations gives a nice break from what is going on in the world,” says theoretical physicist William Detmold.

Exploring the quantum field, from the sun’s core to the Big Bang

Theoretical physicist William Detmold unlocks the mysteries of quarks, gluons, and their “strong interactions” at the subatomic level.

May 13, 2020

During the Independent Activities Period in 2018, senior Michelle Xu worked with the volunteer group Cross Cultural Solutions at the Ritsona refugee camp in Greece, through the Priscilla King Gray Public Service Center. “I may not make a career out of public service, but I am a human being, and just like any other human being, helping the world is important to me,” Xu explains.

Probing reality through physics, philosophy, and writing

Senior Michelle Xu’s varied interests all involve a desire to understand the universe. “I was just never particularly picky about which way to figure it out,” she says.

May 11, 2020

MIT Senior Research Scientist Jagadeesh Moodera and his group use a molecular beam epitaxy system to precisely control the fabrication of ultrathin quantum material combination layer structures. Studying the interfaces between such materials could lead to novel interface phenomena and new energy-efficient quantum devices.

Exploring new paths to future quantum electronics

Jagadeesh Moodera and colleagues to investigate interface-driven phenomena in quantum materials in the quest for energy-efficient quantum electronics.

May 11, 2020

In this illustration, two sheets of graphene are stacked together at a slightly offset “magic” angle, which can become either an insulator or superconductor. “We placed one sheet of graphene on top of another, similar to placing plastic wrap on top of plastic wrap,” MIT professor Pablo Jarillo-Herrero says. “You would expect there would be wrinkles, and regions where the two sheets would...

Researchers map tiny twists in “magic-angle” graphene

Results could help designers engineer high-temperature superconductors and quantum computing devices.

May 7, 2020

MIT Associate Professor Joseph Checkelsky searches for new crystalline materials, known as “quantum materials,” capable of hosting exotic new quantum phenomena.

Finding the right quantum materials

Associate Professor Joseph Checkelsky wins $1.7 million Emergent Phenomena in Quantum Systems Initiative grant to pursue search for new crystalline materials.

May 5, 2020