Latest news with #Lax
Boston Globe
17-05-2025
- Science
- Boston Globe
Peter Lax, preeminent Cold War mathematician, dies at 99
Advertisement In 2005, he was the first applied mathematician to win the Abel Prize — in mathematics, the closest equivalent to the Nobel Prize. Presented in a ceremony in Oslo, Norway, the prize recognized his contributions to the field of partial differential equations, the mathematics of things that move and flow. He 'has been described as the most versatile mathematician of his generation,' the prize citation said. Get Starting Point A guide through the most important stories of the morning, delivered Monday through Friday. Enter Email Sign Up Mr. Lax's engagement with the new field of electronic computing grew out of his wartime weapons research. Working with the Manhattan Project in Los Alamos, New Mexico, in 1945-46, he had performed intricate calculations for the development of the atomic bomb. His work at the Courant Institute of Mathematical Sciences at New York University rapidly altered the trajectory of the computing field, supporting new uses of computers in the analysis of complex systems. Advertisement He played a key role in formulating government policy that bridged civilian and military computing resources, leading to the establishment of large national computing centers, which expanded the reach of supercomputers in science and engineering, paving the way for today's era of big data. In a 1989 article, Mr. Lax compared the impact of computers on mathematics 'to the role of telescopes in astronomy and microscopes in biology.' Peter David Lax was born in Budapest, Hungary, on May 1, 1926, to Henry and Klara (Kornfeld) Lax, both of whom were physicians. Fascinated by mathematics, Peter was tutored in the subject as a youth by renowned mathematician Rósza Péter, a founder of recursion theory, a branch of logic that investigates which mathematical problems can be resolved by computation. Péter connected him to her community of Hungarian Jewish mathematicians, many of whom made significant contributions to midcentury mathematics. Mr. Lax was a young teenager when he demonstrated his early promise. At Péter's suggestion, he completed the problems that were being presented in Hungary's national math competition for high school graduates. He produced solutions that would have won the contest had he been old enough to enter. In December 1941, in the face of rising antisemitism in Hungary, an ally of Nazi Germany, Mr. Lax and his family fled the country, obtaining passage to the United States with the help of the U.S. consul in Budapest, a patient and friend of Henry Lax's. The family arrived as refugees in New York, where Peter Lax, by then a 15-year-old prodigy, came under the wing of other Hungarian mathematicians, who connected him to German emigre mathematician Richard Courant. At the time, Courant was blazing a new direction for applied mathematics and laying the foundation for the institute at NYU that would later bear his name. Advertisement Mr. Lax's father became Courant's physician, while Courant mentored Mr. Lax in mathematics. At 18, having already published his first math paper, Mr. Lax was drafted into the U.S. Army. He was assigned to the Manhattan Project at Los Alamos in the summer of 1945, just in time to participate in the final stages of the race to build an atomic bomb. He worked as a calculator, executing the kind of elaborate multistep computations that would later be performed by electronic computers. His group analyzed the shock waves that would enable a neutron chain reaction, creating the atomic bomb's enormously powerful explosion. He became part of a community of Hungarian mathematicians at Los Alamos that included John von Neumann and John Kemeny, both of whom would later join him on the frontiers of postwar mathematics and computing. After the war, he completed his undergraduate and doctoral degrees at NYU and was appointed assistant professor in 1949. He returned to Los Alamos in 1950 for a year and several subsequent summers to work on the next-generation hydrogen bombs. He became a full professor at NYU in 1958. The connections that Mr. Lax made at Los Alamos — to the people there, the problems they worked on and the equipment they used -- would set the agenda for early postwar computing and guide the rest of his mathematical career. In 1954, the Atomic Energy Commission put Mr. Lax and several of his NYU colleagues in charge of operating an early supercomputer to calculate the risk of flooding to a major nuclear reactor if a nearby dam were sabotaged; they showed that the reactor would be safe. Advertisement His work on computing dovetailed with his contributions to the theory of hyperbolic partial differential equations, an area of research essential to understanding shock waves from bombs, as well as a wide variety of physical phenomena, from weather prediction to aerodynamic design. Among mathematicians, he was most renowned for theoretical breakthroughs that others used to analyze specific phenomena. Again and again, Mr. Lax demonstrated the theoretical richness of applied mathematics, providing, in the words of his early doctoral student Reuben Hersh, 'a singular exception to the usual mutual disrespect between these two inseparable and incompatible twins, the pure and the applied.' As Courant wrote in 1962, Mr. Lax embodied 'the unity of abstract mathematical analysis with the most concrete power in solving individual problems.' Mr. Lax's impact is suggested by the number of concepts that bear his name. They include the Lax equivalence principle, which explains when numerical computer approximations will be reliable; the Lax-Milgram lemma, which relates the interior of a system to its boundary; and Lax pairs, a milestone in understanding the motion of solitons, a kind of traveling wave related to tsunamis. With Ralph Phillips, Mr. Lax developed the Lax-Phillips semigroup in scattering theory, which explains how waves move around obstacles and shows how to use the pattern of frequencies in a wave to understand its motion. That theory yielded many uses, including the interpretation of radar signals. In 1960, Mr. Lax made his first of eight scientific visits to the Soviet Union. His exchanges with Soviet mathematicians — in which 'vodka flowed like water,' he said — led to lasting friendships and represented a warmer side of his Cold War science. Advertisement Starting in 1963, Mr. Lax directed the Courant Institute's cutting-edge computing facilities, funded by the Atomic Energy Commission. He led the institute as director from 1972-80. He also increasingly represented the mathematics profession on the national stage, culminating in his presidency of the American Mathematical Society from 1977-80. From 1980-86, Mr. Lax served on the National Science Board, which sets American research funding policies. In 1982, his 'Report of the Panel on Large Scale Computing in Science and Engineering,' commonly known as the Lax Report, set a lasting agenda for academic- and military-networked research with government supercomputers. His personal life was as integrated with the Courant Institute as his professional life. His first marriage, in 1948, was to mathematician Anneli Cahn, a fellow doctoral student. After her death in 1999, he married Courant's daughter, Lori Berkowitz, the widow of another Courant Institute mathematician and principal violist for the American Symphony Orchestra. She died in 2015. In addition to his son James, Mr. Lax is survived by his stepchildren, David and Susan Berkowitz; three grandchildren; and two great-grandchildren. Another son, John, was killed by a drunken driver in 1978. Mr. Lax's work bridged worlds — military and civilian, pure and applied mathematics, abstract theory and computation — reflecting a belief that the underlying math was universal. In a 2005 interview with The New York Times, he cited the fact that geometry and algebra, 'which were so very different 100 years ago, are intricately connected today.' 'Mathematics is a very broad subject,' he said. 'It is true that nobody can know it all, or even nearly all. But it is also true that as mathematics develops, things are simplified and unusual connections appear.' Advertisement This article originally appeared in
CBS News
21-04-2025
- Health
- CBS News
Woman diagnosed with brain cancer is running all six major marathons to raise money for research
A retired teacher from Austin, Texas, will run the Boston Marathon on Monday in hopes of raising awareness for brain cancer research. Thirty-three-year-old Montgomery Lax was diagnosed with a rare brain cancer, called oligodendroglioma, in 2022. She is partnering with Dana-Farber to run all six major marathons, which include the New York City, Tokyo, London, Boston, Chicago, and Sydney Marathons. "I got to meet with a doctor that's studying my type of cancer, and they've raised about like $7 million just this year with all of the runners that are doing the Boston Marathon," Lax said. She has already run both the New York City and Chicago Marathons, alongside receiving chemotherapy and undergoing surgery. For patients like Montgomery, it is only a matter of time before the tumor returns. The life expectancy for someone with her type of cancer is 10 to 12 years, she said. She says that brain cancer research is already underfunded compared to other types of cancer. She fears that the current pullback on federal funding will make it worse. "The work that Dana-Farber is doing and raising money for charity is really important and getting to run marathons while I do that is really fun," Lax explained. Montgomery visited the marathon finish line on Sunday, excited to finish the 26.2 miles on Monday with optimism and a smile. She is hoping to finish the race in under five hours. Then she says she plans to have a hot bath and a hamburger to celebrate her big accomplishment. "Marathons are hard right? But I think when you've been through cancer yourself, it's really not as hard as going through cancer, but you can do it to inspire other people and raise funds at the same time," Lax said. Montgomery plans to run the Sydney Marathon in August.
