Quantum computing

Three-dimensional graphical representations of the way electrons respond to an input of energy, delivered by a pulse of laser light. The horizontal axis represents the electrons' momentum, and the vertical axis shows their energy. The time sequence runs from top left to bottom right, and the laser pulse arrives just before the second image, causing a sudden burst of higher energy levels.

Watching electrons move at high speed

New MIT system allows femtosecond-resolution movie of electrons in a topological insulator, a promising new electronic material.

September 18, 2012

Elementary particles have a fundamental property called 'spin' that determines how they align in a magnetic field. MIT researchers have created a new physical system in which atoms with clockwise spin move in only one direction, while atoms with counterclockwise spin move in the opposite direction.

A one-way street for spinning atoms

Work correlating ultracold atoms’ spin with their direction of motion may help physicists model new circuit devices and unusual phases of matter.

August 30, 2012

10-year-old problem in theoretical computer science falls

Interactive proofs — mathematical games that underlie much modern cryptography — work even if players try to use quantum information to cheat.

July 31, 2012

An artist's conception shows how any number of incoming photons (top) can be absorbed by a cloud of ultra-cold atoms (center), tuned so that only one single photon can pass through at a time. Being able to produce a controlled beam of single photons has been a goal of research toward creating quantum devices.

Single-photon transmitter could enable new quantum devices

Long-sought goal for quantum devices — the ability to transmit single photons while blocking multiple photons — is finally achieved.

July 25, 2012

Clarice Aiello: Finding quantum gold in diamond’s defect

April 20, 2012

Several newspapers, including "Science Times" and "The New York Times"

What lies ahead for science and science writing?

10th anniversary of MIT Graduate Program in Science Writing celebrates past, looks to future.

March 27, 2012

Scott Aaronson wins NSF’s Alan T. Waterman Award

National Science Foundation’s most prestigious award will help fuel CSAIL researcher’s work.

March 8, 2012

Paola Cappellaro wins AFOSR Young Investigator Award

Department of Nuclear Science and Engineering assistant professor is investigating a bottom-up approach to quantum information devices.

February 15, 2012

Quantum computing with light

A switch that lets one photon alter the quantum state of another could point the way to both practical quantum computers and a quantum Internet.

September 9, 2011

Charter members of the 'Fundamental Fysiks Group,' circa 1975. Standing, left to right: Jack Sarfatti, Saul-Paul Sirag, Nick Herbert; bottom corner: Fred Alan Wolf.

Hippie days

How a handful of countercultural scientists changed the course of physics in the 1970s and helped open up the frontier of quantum information.

June 27, 2011

The MIT researchers who helped lead the project, from left: Research Laboratory of Electronics postdocs Simon Gustavsson and Jonas Bylander and Lincoln Lab's William Oliver.

Long live the qubit!

The power of quantum computers depends on keeping them in a fragile quantum-mechanical state — which researchers have found a new way to extend.

June 2, 2011

Paola Cappellaro: a quantum engineer on the frontier of knowledge

Spotlight on Women in Nuclear Science and Engineering

May 3, 2011

A beam splitter is a device, like the one depicted here, that bifurcates a beam of light. An experiment proposed by MIT researchers, which relies on beam splitters, would exploit the strange behavior of quantum particles to perform calculations that are hopelessly time consuming on conventional computers.

The quantum singularity

A new experiment would use quantum effects to perform otherwise intractable calculations, but conducting it should be easier than building a quantum computer.

March 2, 2011

Vibrating a tray of silicone oil causes so-called Faraday waves to form in the oil's surface. Recent experiments in which fluid droplets reproduce the behavior of subatomic particles require holding the intensity of the vibrations just below the Faraday-wave threshold.

Can fluid dynamics offer insights into quantum mechanics?

Experiments in which fluid droplets mimic the odd behavior of subatomic particles recall an abandoned interpretation of quantum mechanics.

October 20, 2010

Supran works to light up the grid, one quantum dot at a time

December 16, 2009

MIT News | Massachusetts Institute of Technology

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