Physics

Research update: A new model accurately predicts three-dimensional sand flow

Model may be useful in improving the flow of grain in silos, and drug capsules in pharmaceutical manufacturing.

March 25, 2013

Scanning Electron Microscope images show an array of zinc-oxide nanowires (top) and a cross-section of a photovoltaic cell made from the nano wires, interspersed with quantum dots made of lead sulfide (dark areas). A layer of gold at the top (light band) and a layer of indium-tin-oxide at the bottom (lighter area) form the two electrodes of the solar cell.

New solar-cell design based on dots and wires

MIT researchers improve efficiency of quantum-dot photovoltaic system by adding a forest of nanowires.

March 25, 2013

This scanning electron micrograph shows HIV particles infecting a human T cell.

Study offers new way to discover HIV vaccine targets

Ragon Institute researchers develop a method to identify weak points in viral proteins that could be exploited for vaccine development.

March 21, 2013

Josh Winn is the Class of 1942 Career Development Associate Professor of Physics at MIT

Searching for solar systems like our own

Josh Winn’s hunt for exoplanets may someday reveal habitable, Earth-like worlds.

March 20, 2013

Scanning tunneling microscope image shows an artificial atomic nucleus on graphene, consisting of five pairs of calcium atoms (slightly darker circles at center), in an electron cloud that is on the verge of collapse.

Predicted state of atomic collapse seen for first time

Researchers observe a basic quantum-mechanical phenomenon theorized decades ago by pioneers of atomic theory.

March 14, 2013

Two earn School of Science teaching awards

Kelner, Mavalvala honored for undergraduate education

March 7, 2013

MIT Assistant Professor of Physics Jeff Gore in his lab with Tecan Freedom Evo pipetting robot that will be used to study evolution of cooperative behaviors in single-celled yeast.

Allen Family Foundation grants Gore $1.5 million for research

March 5, 2013

Temkin named IEEE Plasma Science and Applications Award winner

Richard J. Temkin cited for contributions to the field of high power gyrotrons and their applications

March 1, 2013

MIT researchers' new method for observing the motion of electron density waves in a superconducting material led to the detection of two different kinds of variations in those waves: amplitude (or intensity) changes and phase changes, shifting the relative positions of peaks and troughs of intensity. These new findings could make it easier to search for new kinds of higher-temperature superconduct...

A new look at high-temperature superconductors

Method allows direct detection of rapid fluctuations that may help to explain how high-temperature superconducting materials work.

February 24, 2013

A scanning electron micrograph of a squamous cell carcinoma, a type of skin cancer. The cell has been frozen and split open to reveal its nucleus.

Some cancer mutations slow tumor growth

Surprising result suggests that enhancing these mutations’ impact could offer a new way to treat cancer.

February 4, 2013

Undergraduate contributes to fusion reactor advancement

Jake Jurewicz, a nuclear science and engineering-physics double major, received a fellowship to develop new simulation and visualization software at the National Fusion Facility in California.

February 4, 2013

The new quantum dots “combine all these attributes that people think are important, at the same time," says Moungi Bawendi, the Lester Wolfe Professor of Chemistry.

MIT researchers improve quantum-dot performance

New production method could enable everything from more efficient computer displays to enhanced biomedical testing.

February 3, 2013

Esther Duflo, Eric Lander and Walter Lewin

Duflo, Lander, Lewin to lead spring-semester MITx courses

EdX takes stock of last semester’s MITx courses; data will be used to improve education online and in the classroom.

January 31, 2013

Christie Chiu is currently working with physics professor Janet Conrad on research related to neutrinos

A physicist and her neutrinos

MIT senior Christie Chiu has found her focus: the study of tiny particles.

January 28, 2013

The new molecules are known as 'graphene fragments,' because they largely consist of flat sheets of carbon (which are attached to zinc atoms). That makes them easier to align during deposition, which could simplify the manufacture of molecular memories.

Storing data in individual molecules

An international team of researchers demonstrates the possibility of molecular memory near room temperature.

January 23, 2013

MIT News | Massachusetts Institute of Technology

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