Physics

Fluorescence microscopy reveals the surface of a single synthetic particle colonized by wild marine microorganisms (green), which are fluorescently labeled with a double-stranded DNA stain.

Microscale marine interactions may shape critical carbon cycles

New research finds interactions between microorganisms and marine particles may have significant effects on oceanic carbon cycling.

June 30, 2016

“When I started in graduate school I knew already that I wanted to work on turbulence in tokamaks,” says Anne White, the Cecil and Ida Green Associate Professor in Nuclear Engineering in MIT’s Plasma Fusion and Science Center.

Anne White: A passion for plasma

Physicist has a fascination for the complexities of turbulence, and how to reduce it in fusion reactors.

June 29, 2016

A collision event display, generated by the ATLAS experiment

Music of the (data) spheres

A new MIT project taps into particle collisions to generate music and forge harmony between science and art.

June 28, 2016

“In about 30 seconds, we can scan a container and provide a three-dimensional map of [the materials inside the cargo]. This information clears the container or alerts you to a region that needs to be examined more carefully,” says William Bertozzi, MIT physics professor emeritus and co-founder of Passport Systems.

Improved threat-detection

Scanners more rapidly and accurately identify radioactive materials at U.S. borders, events.

June 22, 2016

Arthur Freeman, first associate director of National Magnet Laboratory, dies at 86

June 17, 2016

This illustration shows the merger of two black holes and the gravitational waves that ripple outward as the black holes spiral toward each other. The black holes — which represent those detected by LIGO on Dec. 26, 2015 — were 14 and 8 times the mass of the sun, until they merged, forming a single black hole 21 times the mass of the sun. In reality, the area near the black holes would appear ...

For second time, LIGO detects gravitational waves

Signal was produced by two black holes colliding 1.4 billion light years away.

June 15, 2016

Professor Chris Terman (center) developed digital tools to better teach students computational structures. He is flanked by Dean for Graduate Education Christine Ortiz (left) and Dean for Undergraduate Education Dennis M. Freeman.

First annual MIT Teaching with Digital Technology Awards presented

Awards honor faculty and instructors who have effectively leveraged digital technology to improve teaching and learning at MIT.

June 13, 2016

This illustration depicts the process of light emission from a sheet of graphene, which is represented as the blue lattice on the top surface of a carrier material. The light-colored arrow moving upwards at the center depicts a fast-moving electron. Because the electron is moving faster than light itself, it generates a shock wave, which spews out plasmons, shown as red squiggly lines, in two dire...

Researchers discover new way to turn electricity into light, using graphene

By slowing down light to a speed slower than flowing electrons, researchers create a kind of optical “sonic boom.”

June 13, 2016

An MIT-led team has developed a model that explains how chromosomes transform from a loosely twisted bundle (left) into two sister chromatids that form the characteristic X shape in preparation for cell division.

Study: Molecular motors shape chromosome structure

By organizing chromosomes into many tiny loops, molecular motors play key role cell division.

June 10, 2016

A mild temperature change radically alters the degree to which a solid-fluid mixture bends light.

Mixing solids and liquids enhances optical properties of both

New approach can dramatically change the extent to which optical devices scatter light.

June 9, 2016

This illustration depicts the view from outside of a rapidly-accreting black hole. The bright light toward the center represents the super-heating of gas as it falls onto the black hole. Emanating from the center is a jet of accelerated particles moving near the speed of light. Surrounding the black hold is cool, clumpy gas and dust, which are falling inwards and will eventually join the material ...

Scientists observe supermassive black hole feeding on cold gas

Findings suggest two dining styles for black holes.

June 8, 2016

These graphs, known as Riemann surfaces, describe the energy-momentum relationships of electrons in the surfaces of exotic new materials called topological semimetals.

Physicists predict previously unseen phenomena in exotic materials

Better understanding of topological semimetals could help usher in future electronics.

June 6, 2016

Rainer Weiss wins Kavli Prize in Astrophysics

LIGO inventor shares award for direct detection of gravitational waves.

June 2, 2016

Rainer Weiss awarded the Shaw Prize in Astronomy

Physics professor emeritus shares prize with Caltech's Kip Thorne and Ronald Drever for designing the Laser Interferometer Gravitational-Wave Observatory.

June 1, 2016

MIT scientists developed a super-resolution imaging technique, using a combination of multi-colored lasers and mirrors, to visualize very tiny, transient phenomena, such as enzyme clustering on genes.

Scientists illuminate a hidden regulator in gene transcription

New super-resolution technique visualizes important role of short-lived enzyme clusters.

May 25, 2016

MIT News | Massachusetts Institute of Technology

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