Magnetism

“Physics teaches us not only about what happens at the edge of the universe, but about what we observe in our environment every day, including our technology,” says PhD candidate Muni Zhou.

How to grow a cosmic magnetic field

Graduate student Muni Zhou shows how tiny magnetic seed fields can expand to cosmic proportions.

July 21, 2020

Researchers confirmed the existence of electronic waves that are frozen at a transition temperature of 125 kelvins and start “dancing together” in a collective oscillating motion as the temperature is lowered. In this illustration, a red laser beam triggers the dance of the newly discovered electronic waves in magnetite.

Dancing electrons solve a longstanding puzzle in the oldest magnetic material

Physicists use extreme infrared laser pulses to reveal frozen electron waves in magnetite.

March 11, 2020

This illustration shows the characteristic “sheriff star”-type pattern of the Fermi surface, or distribution of electron energy and momentum, for the kagome metal FeSn, a 1-to-1 ratio compound of iron and tin.

MIT researchers realize “ideal” kagome metal electronic structure

Newly synthesized compound of iron and tin atoms in 1-to-1 ratio displays unique behavior.

December 12, 2019

MIT students explore the practical application of electromagnetic concepts through 8.02 (Electricity and Magnetism) class experiments.

Schools of Science and Engineering join hands to transform learning

In 8.02 (Electricity and Magnetism), students explore the practical application of electromagnetic concepts.

December 6, 2019

A domain wall (gray panel at center) separates regions with different spin orientations (green and blue arrows). MIT researchers discovered that a magnetic field applied at one particular angle through a single crystal of a new magnetic quantum material makes it harder for electrons to cross this domain wall.

Approaching the magnetic singularity

MIT researchers discover a material that changes electrical resistance only when a magnetic field is applied at a narrowly confined angle.

June 20, 2019

Fast-moving magnetic particles could enable new form of data storage

Recently discovered phenomenon could provide a way to bypass the limits to Moore’s Law.

October 2, 2017

“There are many thousands of combinations of materials and interfaces that we can create,” says associate professor Geoffrey Beach. “So with this wealth of material structures, rather than relying on the few materials that nature has given us, we can now design materials and their magnetic properties to exhibit the characteristics that we want.”

Geoffrey Beach: Drawn to explore magnetism

Materials researcher is working on the magnetic memory of the future.

April 24, 2017

Nuno Loureiro’s primary ambition for the next few years is to home in on a complete understanding of magnetic reconnection in the simplest possible plasma model.

Nuno Loureiro: A theorist seeks the elusive fundamentals of magnetic reconnection

May 12, 2016

Artistic impression of latitudinally more widespread aurora as an expected consequence of geomagnetic field strength much lower than today's.

Earth not due for a geomagnetic flip in the near future

Researchers find geomagnetic field intensity is double the long-term historical average.

November 23, 2015

Antiparallel beta-sheet structure of the enzyme catalase: The antiparallel hydrogen bonds (dotted) are between peptide NH and CO groups on adjacent strands. Arrows indicate the chain direction, and electron density contours outline the non-H atoms.

Analyzing protein structures in their native environment

Enhanced-sensitivity NMR could reveal new clues to how proteins fold.

October 8, 2015

This diagram shows the layered structure analyzed for its magnetic properties. Yellow spheres represent tellurium atoms; light blue spheres represent antimony-bismuth; and purple spheres represent sulfur. The black sphere with an arrow represents an atom of dopant, and green spheres with arrows show atoms of europium. Different colored arrows show various ways an europium ion can be affected by th...

Unusual magnetic behavior observed at a material interface

Findings could lead to a building block for future quantum computers, and a research tool for physics.

August 18, 2015

Former Magnet Lab researcher Neil Cuffin dies at 74

Longtime principal investigator at MIT was a pioneer in the field of biomagnetism.

July 30, 2015

Controlling a material with voltage

Technique could let a small electrical signal change materials’ electrical, thermal, and optical characteristics.

November 20, 2014

This diagram represents the way microwalkers — created by an MIT team and made up of a pair of paramagnetic beads — can tumble across a surface under the influence of a rotating magnetic field. They tumble until they find areas where friction is greatest — due to higher concentrations of biological receptors — without any advance knowledge of where those areas may be. (Blue represents lo...

Microscopic “walkers” find their way across cell surfaces

Technology could provide a way to deliver probes or drugs to cell structures without outside guidance.

October 23, 2014

Nanoparticles get a magnetic handle

New method produces particles that can glow with color-coded light and be manipulated with magnets.

October 9, 2014

MIT News | Massachusetts Institute of Technology

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