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Physics

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MIT Central Machine Shop supervisor Andrew Gallant (left) and machinist Brian Anderson

The Central Machine Shop builds parts that make MIT research work

A secret to the success of many projects at MIT, the Central Machine Shop helps students, faculty, and staff build just about anything that can be machined.

February 22, 2016

New work shows that interactions of electrons in graphene lead to viscous current flows, creating tiny whirlpools that cause electrons to travel in the direction opposite to the applied voltage — in direct violation of standard electrical theory. White lines show current streamlines, colors show electrical potential, and green arrows show the direction of current, for viscous (top) and normal (o...

How to make electrons behave like a liquid

Analysis predicts exotic behaviors such as “negative resistance,” based on fluid-like effects.

February 22, 2016

MIT physics graduate student Sagar Vijay

Crunching quantum code

MIT physics graduate student Sagar Vijay co-develops error correction method for quantum computing based on special electronic states called Majorana fermions.

February 12, 2016

Amelia Trainer is a sophomore majoring in physics and nuclear science and engineering.

Amelia Trainer: Structuring improved simulations for reactor physics

MIT sophomore is passionate about coding projects that model neutron behavior inside nuclear reactors.

February 11, 2016

Letter regarding the first direct detection of gravitational waves

February 11, 2016

Rainer Weiss

Q&A: Rainer Weiss on LIGO’s origins

MIT physicist developed the concept for LIGO as a teaching exercise.

February 11, 2016

Left to right: David Shoemaker, Rainer Weiss, Matthew Evans, Erotokritos Katsavounidis, Nergis Mavalvala, and Peter Fritschel.

Scientists make first direct detection of gravitational waves

LIGO signal reveals first observation of two massive black holes colliding, proves Einstein right.

February 11, 2016

The LIGO observatory has provided scientists with the first-ever direct detection of gravitational waves, ripples in the fabric of spacetime predicted in 1915 by physicist Albert Einstein. The waves originated from the merger of distant black holes, envisioned here in a computer simulation.

Gravitational waves detected 100 years after Einstein’s prediction

LIGO opens a new window on the universe with the observation of gravitational waves from colliding black holes.

February 11, 2016

“It’s important to understand how the process of fluid breakup happens,” says Lydia Bourouiba. “What is the physics telling us in terms of droplet size distribution, that we can use downstream to predict range of contamination?”

Sneezing produces complex fluid cascade, not a simple spray

High-speed imaging shows how fluid breaks apart in air, may help identify super-spreaders.

February 10, 2016

MIT assistant professor of physics Liang Fu seeks to identify new materials that can process and store quantum information robustly.

Faculty highlight: Liang Fu

MIT theoretical physicist’s research bridges abstract math and exotic computing materials.

February 3, 2016

Dispatches from the Paris climate talks

MIT attendees of COP21 share experiences, perspectives on outcomes

February 2, 2016

Researchers used the MIT and Tim the Beaver logos to show photoluminescence emissions from a monolayer of molybdenum disulfide inlayed onto graphene. The arrow indicates the graphene-MoS2 lateral heterostructure, which could potentially form the basis for ultrathin computer chips.

New chip fabrication approach

Depositing different materials within a single chip layer could lead to more efficient computers.

January 27, 2016

This diagram demonstrates the simplified results that can be obtained by using quantum analysis on enormous, complex sets of data. Shown here are the connections between different regions of the brain in a control subject (left) and a subject under the influence of the psychedelic compound psilocybin (right). This demonstrates a dramatic increase in connectivity, which explains some of the drug’...

A new quantum approach to big data

System for handling massive digital datasets could make impossibly complex problems solvable.

January 25, 2016

In this image, the middle "explosion" is a cloud of hot electrons, inside graphene, that bounce off one another as they reach equilibrium and spread out. The red spheres are those electrons that are energetic enough to escape the hot cloud in less than 30 femtoseconds and generate an electric current. MIT researchers have developed a technique to access and control these ultrafast processes.

Physicists control electrons at femtosecond timescales

Results may help improve efficiency of solar cells, energy-harvesting devices.

January 22, 2016

New finding may explain heat loss in fusion reactors

Solving a longstanding mystery, MIT experiments reveal two forms of turbulence interacting.

January 21, 2016