Nuclear Science and Engineering

Separation of 85Kr from spent nuclear fuel by a highly selective metal organic framework.

Novel gas-capture approach advances nuclear fuel management

Multidisciplinary team uses metal organic frameworks to extract radioactive krypton from fuel-reprocessing gasses.

July 24, 2020

“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

These optical and scanning electron microscope images show irradiated and unirradiated zones of a nickel-chromium alloy. The left side shows examples of foils with irradiation; instead of degrading the material as it almost always does, the radiation actually makes it stronger by reducing the rate of corrosion.

To engineers’ surprise, radiation can slow corrosion of some materials

In certain alloys, exposure to proton irradiation can extend the material’s lifetime, study finds.

July 9, 2020

A new system developed at MIT and Brookhaven National Lab could provide a faster, more reliable and much more energy efficient approach to physical neural networks, by using analog ionic-electronic devices to mimic synapses.

Engineers design a device that operates like a brain synapse

Ion-based technology may enable energy-efficient simulations of the brain’s learning process, for neural network AI systems.

June 19, 2020

Diagram depicts the different conditions that give rise to a Kohn anomaly in ordinary metals (at left), versus a material called a Weyl semimetal (at right). The vertical axis shows energy, while the horizontal axis is momentum space. In the conventional metal, a Kohn anomaly can happen when a phonon (q) links two parts of a property called the Fermi surface, which is shown in blue. In the Weyl se...

Newly observed phenomenon could lead to new quantum devices

Exotic states called Kohn anomalies could offer clues to why some materials have the electronic properties they do.

June 12, 2020

New accident-tolerant fuel design, capable of providing additional layer of containment while packing three to four times the fuel mass per volume as compared to competing fuel forms with similar safety characteristics.

A layered approach to safety

Using 3D fabrication, researchers develop novel nuclear materials that optimize both accident tolerance and performance.

June 11, 2020

“Long term, for the health of academia, for the health of science, for the health of human progress in general, it’s important to get people involved in the frontiers of science," says Norman Cao '15, PhD '20.

Controlling plasma and plasma turbulence

After his PhD thesis invalidates an old assumption, Norman Cao wonders what’s next.

June 4, 2020

MIT teams in the GEMINA program will provide a framework for more streamlined operations and maintenance costs for next-generation advanced nuclear reactors.

Making nuclear energy cost-competitive

Three MIT teams to explore novel ways to reduce operations and maintenance costs of advanced nuclear reactors.

May 27, 2020

Researchers at MIT and elsewhere have combined the power of a super collider with techniques of laser spectroscopy to precisely measure a short-lived radioactive molecule, radium monofluoride, for the first time.

Physicists measure a short-lived radioactive molecule for first time

Molecules containing heavy and deformed radioactive nuclei may help scientists to measure symmetry-violating phenomena and identify signs of dark matter.

May 27, 2020

Students participating in MIT Quest for Intelligence-funded UROP projects include: (clockwise from top left) Alon Kosowsky-Sachs, Isaac Wolverton, Kuan Wei Huang, and Karen Gu.

Undergraduates develop next-generation intelligence tools

UROP students explore applications in robotics, health care, language understanding, and nuclear engineering.

May 26, 2020

"I really like the way the project teams are designed to be fluid. Everyone knows who’s working on what, and you can sit in on meetings if you want to. We all have a limited amount of time, but the resources are there,”. says Erica Salazar.

The quest for practical fusion energy sources

Graduate student Erica Salazar tackles a magnetic engineering challenge.

May 21, 2020

“My goal is to address climate change as an innovator and creator, whether by pushing the boundaries of science” through research or pursuing a zero-carbon future as an entrepreneur, says MIT PhD candidate Pablo Ducru.

A scientist turns to entrepreneurship

After delivering novel computational methods for nuclear problems, nuclear science and engineering PhD candidate Pablo Ducru plunges into startup life.

May 20, 2020

Left to right: MIT professors Lily Tsai, Paola Capellaro, and Warren Seering are “Committed to Caring."

Achieving advisory equilibrium

Professors Paola Cappellaro, Warren Seering, and Lily Tsai honored as “Committed to Caring.”

May 15, 2020

Areg Danagoulian’s MIT team has brought the best science to arms control and provided a creative solution that can reduce nuclear threats and enhance security.

3 Questions: Areg Danagoulian on a new arms control tool and the future of nuclear security

Danagoulian and his research team developed a system that could greatly improve the process for verifying compliance of nuclear warheads.

April 23, 2020

Clockwise from left: Gammacell irradiator in which N95 mask was tested; sodium chloride aerosol apparatus, built by Enze Tian for testing N95 mask filtration efficiency; section of an irradiated N95 mask being loaded into the testing apparatus.

Gamma radiation found ineffective in sterilizing N95 masks

Nuclear scientists and biomedical researchers team up to investigate whether treatment with gamma radiation could make N95 masks more reusable.

April 10, 2020

MIT News | Massachusetts Institute of Technology

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