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A new shoebox-sized laser produces terahertz waves (green squiggles) by using a special infrared laser (red) to rotate molecules of nitrous oxide, or laughing gas, packed in a pen-sized cavity (grey).

Researchers generate terahertz laser with laughing gas

Device may enable “T-ray vision” and better wireless communication.

November 14, 2019

MIT chemists have observed, for the first time, inversion of the umbrella-like ammonia molecule by quantum tunneling.

Chemists observe “spooky” quantum tunneling

Extremely large electric fields can prevent umbrella-shaped ammonia molecules from inverting.

November 4, 2019

MIT engineers have devised a double-sided adhesive that can be used to seal tissues together.

Double-sided tape for tissues could replace surgical sutures

New adhesive that binds wet surfaces within seconds could be used to heal wounds or implant medical devices.

October 30, 2019

One modular robotic cube snaps into place with rest of the M-blocks.

Self-transforming robot blocks jump, spin, flip, and identify each other

Developed at MIT’s Computer Science and Artificial Intelligence Laboratory, robots can self-assemble to form various structures with applications including inspection.

October 30, 2019

A new type of polymer designed by MIT chemists incorporates a special monomer (yellow) that helps the polymers to break down more easily under certain conditions.

New synthesis method yields degradable polymers

Materials could be useful for delivering drugs or imaging agents in the body; may offer alternative to some industrial plastics.

October 28, 2019

Putting the “bang” in the Big Bang

Physicists simulate critical “reheating” period that kickstarted the Big Bang in the universe’s first fractions of a second.

October 24, 2019

The Getz Ice Shelf in West Antarctica.

Antarctic ice cliffs may not contribute to sea-level rise as much as predicted

Study finds even the tallest ice cliffs should support their own weight rather than collapsing catastrophically.

October 21, 2019

A new algorithm speeds up the planning process for robotic grippers to manipulate objects using the surrounding environment.

Giving robots a faster grasp

An algorithm speeds up the planning process robots use to adjust their grip on objects, for picking and sorting, or tool use.

October 17, 2019

$The repeating patterns in a snowflake are a classic example of beautiful, geometric fractals. Now MIT scientists have discovered fractal-like patterns in the magnetic configurations of a quantum material for the first time.$

Scientists discover fractal patterns in a quantum material

The X-ray-focusing lens used in the experiment is based on a design used in lighthouses for centuries.

October 16, 2019

A scanning electron microscope (SEM) image of the polymer network that makes up mucins.

Study reveals how mucus tames microbes

Specialized sugar molecules called glycans can disarm opportunistic pathogens and prevent infection.

October 14, 2019

Optical image of a pattern of silicon dioxide particles, each 5 micrometers in diameter, and individually picked and placed using a new “electroadhesive” stamp.

“Electroadhesive” stamp picks up and puts down microscopic structures

New technique could enable assembly of circuit boards and displays with more minute components.

October 11, 2019

In the top row, neurons are labeled with a fluorescent probe that reveals electrical activity. In the bottom row, neurons are labeled with a variant of the probe that accumulates specifically in the neuron cell bodies, preventing interference from axons of neighboring neurons.

New method visualizes groups of neurons as they compute

Fluorescent probe could allow scientists to watch circuits within the brain and link their activity to specific behaviors.

October 9, 2019

Left to right: senior research scientist David Clark, graduate student Cecilia Testart, and postdoc Philipp Richter

Using machine learning to hunt down cybercriminals

Model from the Computer Science and Artificial Intelligence Laboratory identifies “serial hijackers” of internet IP addresses.

October 8, 2019

Traditional structure-based representations of the many forms of zeolites, some of which are illustrated here, provide little guidance as to how they can convert to other forms, but a new graph-based system does a much better job.

A new mathematical approach to understanding zeolites

Study of minerals widely used in industrial processes could lead to discovery of new materials for catalysis and filtering.

October 7, 2019

A new model predicts how cornstarch and water, a non-Newtonian fluid, can behave like a solid or liquid, depending on how fast it’s deformed. When swirled slowly in a glass, the mixture acts as a liquid. But when deformed quickly, it can behave as a rubbery solid, forming a glue-like string as (shown here in series) a hammer pulls a nail out of the mixture.

Oobleck’s weird behavior is now predictable

MIT engineers develop a model that predicts how the cornstarch-water mixture turns from liquid to solid, and back again.

October 5, 2019