Prof. Peter Shor has been named one of four honorees for this year’s Breakthrough Prize in Fundamental Physics for his contributions to the field of quantum information, reports Daniel Garisto for Scientific American. All of Shor’s work, “led to new views of quantum mechanics and computing,” writes Garisto.
Prof. Peter Shor is one of four winners for this year’s Breakthrough Prize in Fundamental Physics, reports Zeeya Merali for Nature. Merali writes that Shor’s research “laid the groundwork for the development of ultra-secure communications and computers that might one day outperform standard machines at some tasks.”
Prof. Jörn Dunkel and his colleagues have proposed the use of nematic liquid crystals as the potential future basic building blocks for computers, reports Karmela Padavic-Callaghan for New Scientist. According to Dunkel, “because the liquid crystal computer wouldn’t use only 0s and 1s, some of its computations would be analogous to how quantum computers work, as they can simultaneously process more information than conventional computers,” writes Padavic-Callaghan.
MIT scientists have used custom software and maple plywood to create “The Cosmic Cliffs Infinite Galaxy Puzzle” based on the newfound images from the James Webb Space Telescope, reports Elissaveta M. Brandon for Fast Company. The 264-count puzzle contains “squiggly pieces that can be reconfigured in endless ways” writes Brandon.
Graduate students Mehtaab Sawhney and Ashwin Sah were among the four mathematicians to demonstrate “it’s always possible to build such a hypergraph as long as you have enough nodes,” a 50-year-old proof first proposed by Paul Erdős, reports Leila Sloman for Quanta Magazine.
Prof. Nikta Fakhri and her colleagues have placed hundreds of starfish embryos into salt-water tanks where they arrange themselves into honeycomb-like patterns at the water’s surface, reports Karmela Padavic-Callaghan for New Scientist. “These structures, which had never been seen before, may form because of the embryos’ swimming style and body shape,” explains Padavic-Callaghan.
MIT researchers have solved a geometry problem that explores how to divide n-dimensional spaces into theoretically equal “slices," reports Juandre for Popular Mechanics. “I can tell you at the beginning, we were a little bit stuck. We made some partial progress, but I guess by hitting those roadblocks we just learned a lot about what we needed at the end,” explains Zilian Jiang, a former Applied Mathematics Instructor at MIT. “That was [a] great experience, because at least for me personally, I feel like doing research is also about the experience.”
New research by Professor Erik Demaine, lecturer Zachary Abel, robotics engineer Martin Demaine and their colleagues explores whether it is possible to “take any polyhedral (or flat-sided) shape that’s finite (like a cube, rather than a sphere or the endless plane) and fold it flat using creases," writes Rachel Crowell for Quanta Magazine. “By moving finite to infinite ‘conceptual’ slices, they created a procedure that, taken to its mathematical extreme, produced the flattened object they were looking for,” Crowell explains.
In an article for The New York Times exploring whether humans are the only species able to comprehend geometry, Siobhan Roberts spotlights Prof. Josh Tenenbaum’s approach to exploring how humans can extract so much information from minimal data, time, and energy. “Instead of being inspired by simple mathematical ideas of what a neuron does, it’s inspired by simple mathematical ideas of what thinking is,” says Tenenbaum.
Forbes contributor David Bressan writes that a new study by MIT researchers proposes that oxygen began accumulating in early Earth’s atmosphere due to interactions between marine microbes and minerals in ocean sediments. The researchers hypothesize that “these interactions helped prevent oxygen from being consumed, setting off a self-amplifying process where more and more oxygen was made available to accumulate in the atmosphere,” writes Bressan.
Sajith Wickramasekara ‘15 and Ashu Singhal ’11 co-founded Benchling, a software company designed to make it easier to keep track of laboratory data. The company has now acquired Overwatch, a software company for customers working in preclinical biopharma research, reports Alex Knapp for Forbes. “It [the acquisition] fits really nicely in the direction our company is heading,” says Wickramasekara. “It really helps us extend our offering, especially for biopharma where we’re growing a lot.”
The Tyee reporter Andrew Nikiforuk spotlights research conducted by Alex Siegenfeld SB ‘15, PhD ‘22, Yaneer Bar-Yam SB ’78, PhD ’84, and their colleagues to better understand the hesitancy behind accepting the efficacy of mask wearing. “There weren’t any studies that conclusively showed masks were not effective, yet common sense just got undervalued,” says Siegenfeld.
Prof. Erik Demaine speaks with Popular Mechanics reporter Sarah Wells about the surprisingly complex math behind wrapping a present. "If [the wrapping] is a square piece of paper, we know the best [way]," Demaine says. "[But] what if I gave you an eight-and-a-half by eleven rectangle? The answer turns out to be really complicated…And again, this is just wrapping a cube. If you're wrapping a general box, it's going to get even messier. Here, we don't even know the right answer."
Google created a doodle honoring the late Lotfi Zadeh ’46 for creating the mathematical framework known as “fuzzy logic,” reports Brett Molina for USA Today. Zadeh’s theory “has been used in various tech applications, including anti-skid algorithms for cars,” writes Molina.
Graduate student John Urschel speaks with Forbes contributor Talia Milgrom-Elcott about how his mother helped inspire his love of mathematics and the importance of representation. “It’s very hard to dream of being in a career if you can’t relate to anyone who’s actually in that field,” says Urschel. “One of my main goals in life as a mathematician is to increase representation of African American mathematicians.”