Forbes contributor Michael T. Nietzel spotlights the newest cohort of Rhodes Scholars, which includes Yiming Chen '24, Wilhem Hector, Anushka Nair, and David Oluigbo from MIT. Nietzel notes that Oluigbo has “published numerous peer-reviewed articles and conducts research on applying artificial intelligence to complex medical problems and systemic healthcare challenges.”
Yiming Chen '24, Wilhem Hector, Anushka Nair, and David Oluigbo have been named 2025 Rhodes Scholars, report Brian P. D. Hannon and John Hanna for the Associated Press. Undergraduate student David Oluigbo, one of the four honorees, has “volunteered at a brain research institute and the National Institutes of Health, researching artificial intelligence in health care while also serving as an emergency medical technician,” write Hannon and Hanna.
Craft in America visits Prof. Erik Demaine and Martin Demaine of CSAIL to learn more about their work with computational origami. “Computational origami is quite useful for the mathematical problems we are trying to solve,” Prof. Erik Demaine explains. “We try to integrate the math and the art together.”
Michael Truell '21, Sualeh Asif '22, Arvid Lunnemar '22, and Aman Sanger '22 co-founded Anysphere, an AI startup working on developing Cursor, an AI-powered coding assistant, reports Marina Temkin for TechCrunch.
Lithios, a startup cofounded by Mohammad Alkhadra PhD '22 and Prof. Martin Bazant, is developing “a clean and relatively cheap way to access vast amounts of lithium,” reports Hiawatha Bray for The Boston Globe. “Lithios has developed a lithium-absorbing material that can be made into electrodes using the same technologies created to make electrodes for lithium-ion batteries,” explains Bray.
Since meeting as undergraduates at MIT, graduate student Ashwin Sah '20 and Mehtaab Sawhney PhD '24 have “written a mind-boggling 57 math proofs together, many of them profound advances in various fields,” writes Leila Sloman for Quanta Magazine. Now, in what is being praised as a “huge achievement” and “phenomenally impressive” by fellow mathematicians, Sah and Sawhney have “obtained a long-sought improvement on an estimate of how big sets of integers can get before they must contain sequences of evenly spaced numbers."
TechCrunch reporter Kyle Wiggers spotlights Codeium, a generative AI coding company founded by MIT alums Varun Mohan SM '17 and Douglas Chen '17. Codeium’s platform is run by generative AI models trained on public code, providing suggestions in the context of an app’s entire codebase. “Many of the AI-driven solutions provide generic code snippets that require significant manual work to integrate and secure within existing codebases,” Mohan explains. “That’s where our AI coding assistance comes in.”
A team of MIT researchers discovered a hard limit for the “spooky” phenomenon known as quantum entanglement, reports Ben Brubaker for Quanta Magazine. The researchers found that quantum entanglement does not weaken as temperatures increase, but rather it vanishes above specific temperatures, a behavior dubbed the “sudden death” of entanglement. “It’s a very, very strong statement,” says Prof. Soonwon Choi of the findings. “I was very impressed.”
Prof. Christoph Kehle and his colleagues have demonstrated “that there is nothing in our known laws of physics to prevent the formation of an extremal black hole,” reports Steve Nadis for Quanta Magazine. The mathematical proof is “beautiful, technically innovative and physically surprising,” says Princeton University Professor Mihalis Dafermos. It hints at a potentially richer and more varied universe in which “extremal black holes could be out there astrophysically.”
Prof. Larry Guth and University of Oxford Prof. James Maynard have discovered a new proof for the Riemann hypothesis, which “automatically leads to better approximations of how many primes exist in short intervals on the number line, and stands to offer many other insights into how primes behave,” reports Jordana Cepelewicz for Quanta Magazine. “It’s a sensational result,” notes Rutgers University Prof. Henryk Iwaniec. “It’s very, very, very hard. But it’s a gem.”
Prof. Martin Bazant speaks with Wired reporter Emily Mullin about the importance of proper battery disposal to reduce waste and ensure the materials can be reused. “What we don’t want is to be losing critical minerals from the supply chain,” explains Bazant. “We have to be able to recycle them.”
Prof. Larry Gurth and University of Oxford Prof. James Maynard have uncovered a new finding “about how certain polynomials are formed and how they reach out into the number line,” reports Caroline Delbert for Popular Mechanics. Gurth and Maynard “claim they’ve proven [Dirichlet] polynomials have a certain number of large values, or solutions, within a tighter ranger than before.”
Prof. Larry Guth and University of Oxford Prof. James Maynard have improved a previously discovered mathematical estimate contributing to the process of solving the Riemann hypothesis – an open question in number theory and mathematics, reports Manon Bischoff for Scientific American. Guth and Maynard have “provided new food for thought to tackle the 160-year-old puzzle,” writes Bischoff.
New York Times reporter Siobhan Roberts highlights the various MIT faculty and students who have contributed to the “serious recreational mathematics” behind the Rubik’s Cube phenomenon. Various mathematicians, including Prof. Erik Demaine, organized a two-day special session to celebrate the 50th anniversary of the Rubik’s Cube.
Postdoctoral associate Adam Forrest Kay’s book “Escape From Shadow Physics: The Quest to End the Dark Ages of Quantum Theory,” is reviewed by Andrew Crumey for The Wall Street Journal. “Consistently interesting” and “energetically written,” the book, “eloquently explains the history behind hydrodynamic quantum analogs,” writes Crumey.