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New Scientist

New Scientist reporter Will Gater writes that the TESS satellite has found its first two exoplanets. “This is one of the first objects we looked at,” says MIT postdoctoral fellow Chelsea Huang of the discovery of an exoplanet about 60 light years away. “We were immediately saying ‘hey this is too good to be true!’”

New York Times

New York Times reporter Dennis Overbye writes about how the TESS satellite has already identified at least 73 stars that might have exoplanets. “TESS is doing great,” says George Ricker, a senior research scientist at MIT who is leading the TESS mission. Ricker adds that the satellite is, “all that we could have wished for!”

Reuters

The TESS satellite has identified two new exoplanets, reports Joey Roulette for Reuters. “We will have to wait and see what else TESS discovers,” says Prof. Sara Seager, who is serving as the TESS deputy science director. “We do know that planets are out there, littering the night sky, just waiting to be found.”

United Press International (UPI)

The first image captured during the initial orbit of the MIT-developed TESS satellite shows thousands of stars in the Southern Sky, reports Brooks Hays for UPI. “Galaxies, globular clusters and thousands of stars can be found within the portrait of the Southern Sky. Hidden in the image are exoplanets,” writes Hays. 

Fox News

The MIT-developed TESS satellite has sent back its first batch of images of the southern sky from its quest to identify nearby exoplanets, reports writes Chris Ciacci for Fox News. Ciacci notes that the resulting images are “nothing short of incredible.”

Axios

Axios reporter Andrew Freeman writes that the TESS satellite has captured its first images of the southern sky. “This swath of the sky’s southern hemisphere includes more than a dozen stars we know have transiting planets based on previous studies from ground observatories,” explains MIT’s George Ricker, TESS’ principal investigator.

Gizmodo

Gizmodo reporter Ryan Mandelbaum writes that by studying ancient quasars, MIT scientists have uncovered evidence supporting quantum entanglement, the concept that two particles can become linked despite their distance in space and time. “We’ve outsourced randomness to the furthest quarters of the universe, tens of billions of light years away,” says Prof. David Kaiser.

Space.com

Space.com reporter Chelsea Gohd writes that MIT researchers have used the light emitted by two ancient quasars to provide evidence of quantum entanglement, the theory that two particles can become linked across space and time. The researchers used ancient quasars to see if, “the correlation between particles can be explained by classical mechanics stemming from earlier than 600 years ago.”

Motherboard

Writing for Motherboard, Daniel Oberhaus highlights how MIT researchers have used light emitted by quasars billions of years ago to confirm the existence of quantum entanglement. Oberhaus explains that the findings suggest entanglement occurs “because if it didn’t exist the universe would somehow have to have ‘known’ 7.8 billion years ago that these MIT scientists would perform these experiments in 2018.”

Space.com

MIT researchers have discovered hundreds of galaxies that were hidden by light being emitted from a supermassive black hole, reports Kasandra Brabaw for Space.com. “The black hole, a type known as a quasar, sits 2.4 billion light-years from Earth and is so bright that astronomers have assumed it was alone in its area of space for decades,” Brabaw explains.

Fox News

FOX News reporter James Rogers writes that MIT researchers have detected a new galaxy cluster that had been obscured by the bright light emitted from a supermassive black hole.  “Located just 2.4 billion light-years from Earth, the cluster consists of hundreds of individual galaxies,” Rogers explains.

Gizmodo

Gizmodo reporter Ryan Mandelbaum highlights how MIT researchers used data from the CLAS particle accelerator and detector to determine that neutron stars are heavily influenced by protons. Prof. Or Hen explains that the findings show that, “protons are much more important in determining the properties of neutron stars than we thought.”

Physics Today

Physics Today reporter David Kramer highlights how Commonwealth Fusion Systems (CFS), an MIT startup, is on a mission to prove that fusion power is a viable energy source. “CFS benefits from decades of experience by MIT researchers working on high-field, high-plasma-density tokamaks,” notes Kramer.

Xinhuanet

NASA’s TESS satellite, which is searching for planets outside our solar system, is expected to send back its first series of data in August, reports the Xinhua News Agency. The mission is being led by MIT researchers and will, “monitor the brightness of more than 200,000 stars over a period of two years, eyeing temporary drops in brightness caused by planetary transits,” according to Xinhua.

Space.com

Writing for Space.com, Chelsea Gohd reports that a team of researchers led by Hans Moritz Guenther at MIT’s Kavli Institute has observed a young star devouring a planet. “The researchers hope to get a better idea of what really goes on in the life of a young star and how infant planets manage to survive,” explains Gohd.