MIT student teams win top honors in NASA competition
Three MIT teams took five top awards in the 2026 NASA RASC-AL Competition for designing critical elements for the moon base and future missions to Mars.
Three MIT teams took five top awards in the 2026 NASA RASC-AL Competition for designing critical elements for the moon base and future missions to Mars.
Expect energy disruptions and economic damage, especially in developing countries, and prepare to build a more resilient, sustainable energy system, says International Energy Agency executive director.
Pablo Duenas-Martinez, a MITEI research scientist, describes the “death spiral” of events that caused the 12-hour Iberian peninsula power outage in 2025, and five lessons learned.
Rep. Jake Auchincloss visits the MIT Plasma Science and Fusion Center to learn about scaling geothermal energy.
Dean Price, assistant professor in the Department of Nuclear Science and Engineering, sees a bright future for nuclear power, and believes AI can help us realize that vision.
Build for Ukraine 2.0 united students, researchers, and Ukrainian collaborators to prototype solutions shaped by wartime conditions.
Sophia Henneberg, assistant professor in the Department of Nuclear Science and Engineering, is developing stellarators to harness fusion energy.
Master's student Taylor Hampson is modeling the behavior of an unconventional rocket engine that will heat propellant using nuclear energy.
In his 10 years at MIT, Loureiro helped illuminate the physics occurring at the center of fusion vacuum chambers and at the edges of the universe.
Nuclear waste continues to be a bottleneck in the widespread use of nuclear energy, so doctoral student Dauren Sarsenbayev is developing models to address the problem.
A new study by MIT researchers analyzes different nuclear waste management strategies, with a focus on the radionuclide iodine-129.
Marco Graffiedi, a doctoral student in nuclear science and engineering, is researching quenching processes to help cool nuclear cores, and NASA craft the next generation of space vehicles.
First-of-its-kind handbook serves as a guide for design safety for civilian nuclear ships.
The approach combines physics and machine learning to avoid damaging disruptions when powering down tokamak fusion machines.
The novel design allows the membranes to withstand high temperatures when separating hydrogen from gas mixtures.