In October, astrophysicist Andrea Ghez ’87 became the fourth woman to win the Nobel Prize in Physics and the 38th in the list of MIT graduates with Nobels to their names. 

Ghez, a professor at UCLA, and Reinhard Genzel, a professor emeritus at UC Berkeley, share half the prize for the discovery of a supermassive black hole at the center of the Milky Way. 

Using some of the world’s largest and most powerful telescopes, teams led by the two physicists have peered through interstellar gas and dust to study the orbits of stars at the galaxy’s center, revealing that an incredibly massive yet unseen object appears to be pulling on the stars and flinging them around at enormous speeds.

“What Andrea Ghez and Reinhard Genzel did was one of the coolest things ever—revealing stars in the center of our galaxy orbiting a black hole too small to see with a telescope,” says Peter Fisher, head of MIT’s Department of Physics. 

“Indeed, we now have understood that these behemoths live at the center of most galaxies,” says Nergis Mavalvala, PhD ’97, a professor of astrophysics and dean of MIT’s School of Science. “All of her career, Andrea has been an awe-inspiring scientist and educator, and a role model for women and girls.”

The other half of the prize was awarded to Roger Penrose, professor emeritus of mathematics at Oxford University, for using ingenious mathematical models to prove that black holes are a direct consequence of Albert Einstein’s general theory of relativity, even though Einstein himself did not believe they could exist. 

“I hope I can inspire other young women into the field,” Ghez said at a press conference. “It’s a field that has so many pleasures, and if you are passionate about the science, there’s so much that can be done.”

The search for extraterrestrial life has largely focused on Mars, but scientists at MIT, Cardiff University, and elsewhere reported surprising findings in September of what may be signs of life in the clouds of Venus. 

While Venus is similar to Earth in size, mass, and rocky composition, its surface temperatures reach 900 °F, and its atmosphere is suffused with thick clouds of sulfuric acid billions of times more acidic than any environment on Earth. 

There is, however, a narrow band 48 to 60 kilometers above the surface where temperatures range from 30 to 200 °F. In this temperate region the astronomers detected a pattern of light associated with phosphine, a stinky, poisonous gas that MIT astronomers have shown cannot be produced on rocky planets by any means other than living organisms. The team used computer models to explore all other mechanisms that might produce phosphine in Venus’s harsh environment and came up empty.

If there is indeed life on Venus, the researchers say, it is some “aerial” form that exists only in this band of clouds.
“A long time ago, Venus is thought to have had oceans, and was probably habitable like Earth,” says coauthor Clara Sousa-Silva, a former research scientist in the Department of Earth, Atmospheric, and Planetary Sciences. “As Venus became less hospitable, life would have had to adapt, and they could now be in this narrow envelope of the atmosphere where they can still survive.”

Snapchat has shared some new insights into how Snapchatters are planning to celebrate the New Year, along with Christmas giving trends.

Linqia has published a new marketing calendar for 2021, highlighting all the key dates and events to keep in mind.

Instagram has shared some data-backed insights into the most popular holiday cookies across the US.

Pinterest has published two new guides to help restaurant and entertainment brands prepare their Pin campaigns for the year head.

Snapchat has shared an overview of some of the top AR campaigns on the platform in 2020.