Physics

Drawn to open-ended problems

Whether racing cross country or teaching coding in rural schools, senior Billy Woltz relishes experimentation and creative thinking.

November 1, 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

American Physical Society honorees (left to right): Richard Milner and Pablo Jarillo-Herrero, professors of physics, and James Collins, professor of biological engineering.

American Physical Society honors three MIT professors for physics research

James Collins, Pablo Jarillo-Herrero, and Richard Milner have won top prizes for their work.

October 24, 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

Researchers have for the first time used a massive cluster of galaxies as a huge magnifying lens to detect a small, star-forming dwarf galaxy.

Astronomers use giant galaxy cluster as X-ray magnifying lens

New lens technique spots tiny dwarf galaxy in the first, super-energetic stages of star formation.

October 14, 2019

MIT researchers detect a single quantum vibration within a diamond sample (shown here) at room temperature.

Scientists observe a single quantum vibration under ordinary conditions

Studying a common material at room temperature, researchers bring quantum behavior “closer to our daily life.”

October 6, 2019

This diagram shows an edge-on view of the molecular structure of the new coating material. The thin layered material being coated is shown in violet at bottom, and the ambient air is shown as the scattered molecules of oxygen and water at the top. The dark layer in between is the protective material, which allows some oxygen (red) through, forming an oxide layer below that provides added protecti...

A new way to corrosion-proof thin atomic sheets

Ultrathin coating could protect 2D materials from corrosion, enabling their use in optics and electronics.

October 4, 2019

A simulation of early galaxy formation under three dark matter scenarios. In a universe filled with cold dark matter, early galaxies would first form in bright halos (far left). If dark matter is instead warm, galaxies would form first in long, tail-like filaments (center). Fuzzy dark matter would produce similar filaments, though striated (far right), like the strings of a harp.

This is how a “fuzzy” universe may have looked

Scientists simulate early galaxy formation in a universe of dark matter that is ultralight, or “fuzzy,” rather than cold or warm.

October 3, 2019

MIT physics graduate student Dahlia Klein (left) and postdoc David MacNeill showed that magnetic order and stacking order are very strongly linked in two-dimensional magnets such as chromium chloride and chromium iodide, giving engineers a tool to vary the material’s magnetic properties.

Controlling 2-D magnetism with stacking order

MIT researchers discover why magnetism in certain materials is different in atomically thin layers and their bulk forms.

September 30, 2019

Four MIT faculty have been named 2019 American Physics Society Fellows: (left to right) Matthew Evans, Joseph Formaggio, Markus Klute, and Anne White.

Four from MIT named American Physical Society Fellows for 2019

Matthew Evans, Joseph Formaggio, Markus Klute, and Anne White are named MIT’s newest APS fellows for their contributions to physics.

September 20, 2019

KATRIN’s spectrometer, shown here, precisely measures the energy of electrons emitted in the decay of tritium, which has helped scientists come closer to pinning down the mass of the ghost-like neutrino.

3Q: Scientists shave estimate of neutrino’s mass in half

Joseph Formaggio explains the discovery that the ghostly particle must be no more than 1 electronvolt, half as massive as previously thought.

September 16, 2019

MIT and Dartmouth College researchers developed a tool that detects new characteristics of non-Gaussian “noise” that can destroy the fragile quantum superposition state of qubits, the fundamental components of quantum computers.

Uncovering the hidden “noise” that can kill qubits

New detection tool could be used to make quantum computers robust against unwanted environmental disturbances.

September 16, 2019

The Transiting Exoplanet Survey Satellite is inspected before its launch in April 2018. Approximately 250 MIT scientists and engineers are included as recipients of the NASA Silver Achievement Medal for their role in the TESS mission.

TESS team is awarded NASA's Silver Achievement Medal

The honor recognizes the "stellar achievement" of the people behind the exoplanet-seeking satellite.

September 12, 2019

MIT scientists have captured the “ringing” of a newly-formed black hole, in the form of gravitational waves, depicted in this artist’s illustration.

Scientists detect tones in the ringing of a newborn black hole for the first time

Results support Einstein’s theory and the idea that black holes have no “hair.”

September 12, 2019

Images showing interference patterns (top) and a Wilson loop (bottom) were produced by the researchers to confirm the presence of non-Abelian gauge fields created in the research.

Exotic physics phenomenon is observed for first time

Observation of the predicted non-Abelian Aharonov-Bohm Effect may offer step toward fault-tolerant quantum computers.

September 5, 2019

MIT News | Massachusetts Institute of Technology

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