School of Science

Aleksander Madry is a leader in the emerging field of building guarantees into artificial intelligence, which has nearly become a branch of machine learning in its own right.

3Q: Aleksander Madry on building trustworthy artificial intelligence

A recent MIT symposium explores methods for making artificial intelligence systems more reliable, secure, and transparent.

December 14, 2018

Extremophiles are capable of living in some of the harshest locations on Earth, such as the Grand Prismatic Spring at Yellowstone National Park.

Surviving one of Earth’s most extreme environments

New research finds a unique component of cell membranes in an archaea species conveys protection against acidic surroundings.

December 14, 2018

Cells have evolved to produce the components of their multi-protein complexes in precise ratios.

Tracking the footprints of protein synthesis

Researchers refine a method to quantify protein production, show that the precision with which bacteria and eukaryotes tune their gene expression is remarkably similar.

December 14, 2018

A new laser-pointing platform developed at MIT may help launch miniature satellites called CubeSats into the high-rate data game.

Laser-pointing system could help tiny satellites transmit data to Earth

Platform offers the precision that shoebox-sized CubeSats need to beam down hefty data packets.

December 14, 2018

MIT engineers have devised a way to create 3-D nanoscale objects by patterning a larger structure with a laser and then shrinking it. This image shows a complex structure prior to shrinking.

Team invents method to shrink objects to the nanoscale

It’s not quite the Ant-Man suit, but the system produces 3-D structures one thousandth the size of the originals.

December 13, 2018

Riccardo Comin (left), an assistant professor of physics, and physics graduate student Abraham Levitan assemble the contacts on a sample holder that they’ll use to study the effects of high current on the superconducting material yttrium barium copper oxide, in the cryogenic optical spectrometer seen in the foreground. The setup enables the researchers to perform Raman spectroscopy down to 4 kel...

Better superconductors from ceramic copper oxides

Riccardo Comin seeks to elucidate the microscopic physics of high-temperature superconducting devices to advance their technological applications.

December 13, 2018

Red staining indicates expression of Kir2.1 potassium ion channels in dentate gyrus engram cells in the hippocampus of the brain.

How returning to a prior context aids memory recall

Picower Institute researchers discover the brain mechanism that helps details come flooding back when you visit a scene again.

December 12, 2018

MIT professors Raffaele Ferrari and John Marshall, along with colleagues from Caltech, NASA's Jet Propulsion Lab, and the Naval Postgraduate School, envision a revolution in climate modeling using data assimilation and machine learning.

New climate model to be built from the ground up

Scientists and engineers will collaborate in a new Climate Modeling Alliance to advance climate modeling and prediction.

December 12, 2018

MIT researchers have 3-D printed a novel microfluidic device that simulates cancer treatments on biopsied tumor tissue — and keeps the tissue alive for days — so clinicians can better examine how individual patients will respond to different therapeutics.

To guide cancer therapy, device quickly tests drugs on tumor tissue

Inexpensive 3-D-printed microfluidics device could be used to personalize cancer treatment.

December 12, 2018

NASA’s Voyager 1 and Voyager 2 probes are both now located beyond the heliosphere, a protective bubble created by the sun. Voyager 1 crossed the heliopause, or the edge of the heliosphere, in August 2012. Heading in a different direction, Voyager 2 crossed another part of the heliopause in November 2018.

3 Questions: MIT goes interstellar with Voyager 2

MIT Kavli's John Richardson describes MIT's role in the historic passing of the Voyager 2 craft past the heliopause and into the interstellar medium.

December 10, 2018

Thirty-one MIT community members were named to this year’s list, including 25 alumni.

More than 30 from MIT named to Forbes 30 Under 30 lists

Forbes calls its 2019 30 Under 30 honorees “a collection of bold risk-takers who are putting a new twist on the old tools of the trade.”

December 7, 2018

Atoms are like small magnets, so applying a magnetic force pushes them around, here, to the left (top left). Since these atoms repel each other, they cannot move if there are no empty sites (top middle). But the atomic “magnetic needles” are still free to move, with stronger magnets (red) diffusing to the left in the image, and weaker magnets (blue) having to make room and move to the right (b...

Atoms stand in for electrons in system for probing high-temperature superconductors

Using new “quantum emulator,” physicists can observe individual atoms moving through these materials, and measure their speed.

December 6, 2018

Professor Gabriela S. Schlau-Cohen (center) and graduate students Raymundo Moya (left) and Wei Jia Chen worked with collaborators at the University of Verona, Italy, to develop a new understanding of the mechanisms by which plants reject excess energy they absorb from sunlight so it doesn’t harm key proteins. The insights gained could one day lead to critically needed increases in yields of biom...

Understanding how plants use sunlight

Studies of how photoprotection works at the molecular level may provide a pathway to more biomass and crops.

December 4, 2018

The twin detectors of LIGO, the Laser Interferometer Gravitational-wave Observatory, are located in Louisiana and Washington. The Livingston detector site, located near Livingston, Louisiana, is pictured here.

LIGO and Virgo announce four new gravitational-wave detections

The observatories are also releasing their first catalog of gravitational-wave events.

December 3, 2018

MIT researchers are developing ribonucleases as potential drugs to treat cancer. In a new study, they found that the drugs work better when given with already-approved drugs known as kinase inhibitors.

New drug combination could be more effective against melanoma

Chemists discover an unexpected synergy between two types of cancer drugs.

December 3, 2018

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3Q: Aleksander Madry on building trustworthy artificial intelligence

Surviving one of Earth’s most extreme environments

Tracking the footprints of protein synthesis

Laser-pointing system could help tiny satellites transmit data to Earth

Team invents method to shrink objects to the nanoscale

Better superconductors from ceramic copper oxides

How returning to a prior context aids memory recall

New climate model to be built from the ground up

To guide cancer therapy, device quickly tests drugs on tumor tissue

3 Questions: MIT goes interstellar with Voyager 2

More than 30 from MIT named to Forbes 30 Under 30 lists

Atoms stand in for electrons in system for probing high-temperature superconductors

Understanding how plants use sunlight

LIGO and Virgo announce four new gravitational-wave detections

New drug combination could be more effective against melanoma

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Centers, Labs, & Programs

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