About Us
Founded in 1944, the American Committee for the Weizmann Institute of Science develops philanthropic support for the Weizmann Institute in Israel, and advances its mission of science for the benefit of humanity.
May 11, 2020...
If we cannot resume economic activity without causing a resurgence of Covid-19 infections, we face a grim, unpredictable future of opening and closing schools and businesses.
We can find a way out of this dilemma by exploiting a key property of the virus: its latent period — the three-day delay on average between the time a person is infected and the time he or she can infect others.
People can work in two-week cycles, on the job for four days then, by the time they might become infectious, 10 days at home in lockdown. The strategy works even better when the population is split into two groups of households working alternating weeks.
Apr 21, 2020...
Remember the exploding Samsung Galaxy Note 7s that made headlines three years ago?
Well, it turns out smartphones aren’t the only machines whose lithium-ion batteries can explode when overloaded. E-cigarettes, airplanes and electric vehicles also blow up from overheated batteries.
“When you sit on an e-bike, right over the battery, you are sitting on energy that is equivalent to 1 kilo of gunpowder, and in electric cars it’s equivalent to 100 times that much,” points out Niles Fleischer, CEO of Israeli startup ALGOLiON.
May 04, 2020... In this video, Profs. Ron Milo and Uri Alon succinctly and clearly explain their “intermittent work” strategy for restarting the economy without triggering a new wave of COVID infections.
May 13, 2020... ACM, the Association for Computing Machinery, today recognized three individuals with awards for their exemplary service to the computing field. Working in diverse areas, the 2019 award recipients were selected by their peers for longstanding efforts that have strengthened the community. This year’s ACM award recipients made seminal contributions in areas including textbooks and educational tools, bibliographic resources, and advancing the computing community in India.
May 13, 2020...
Israeli researchers have discovered new entities created from interaction between matter and light particles, Weizmann Institute of Science (WIS) reported Wednesday.
The research, published in the journal Nature Communications, has several implications in developing quantum applications, fine control of chemical processes and designing new materials.
The difference between light and matter should be a clear and simple division, but there are situations in which the two become so closely connected that the situation becomes blurred.
May 17, 2020... Dr. Nir London discusses the “COVID Moonshot” project in this videoconference. The global initiative, which currently includes nine partners, aims to develop a “cheap and safe” antiviral treatment for COVID on a much faster timeline than traditional drug discovery.
Jun 12, 2020...
The list of sophisticated eavesdropping techniques has grown steadily over years: wiretaps, hacked phones, bugs in the wall—even bouncing lasers off of a building's glass to pick up conversations inside. Now add another tool for audio spies: Any light bulb in a room that might be visible from a window.
Researchers from Israeli's Ben-Gurion University of the Negev and the Weizmann Institute of Science today revealed a new technique for long-distance eavesdropping they call “lamphone.” They say it allows anyone with a laptop and less than a thousand dollars of equipment—just a telescope and a $400 electro-optical sensor—to listen in on any sounds in a room that’s hundreds of feet away in real-time, simply by observing the minuscule vibrations those sounds create on the glass surface of a light bulb inside. By measuring the tiny changes in light output from the bulb that those vibrations cause, the researchers show that a spy can pick up sound clearly enough to discern the contents of conversations or even recognize a piece of music.
https://www.weizmann-usa.org/news-media/news-releases/a-measure-of-smell/
Nov 11, 2020... REHOVOT, ISRAEL—November 11, 2020—Fragrances – promising mystery and intrigue – are blended by master perfumers, their recipes kept secret. In a new study on the sense of smell, Weizmann Institute of Science researchers have managed to strip much of the mystery from even complex blends of odorants, not by uncovering their secret ingredients, but by recording and mapping how they are perceived. The scientists can now predict how any complex odorant will smell from its molecular structure alone. This study may not only revolutionize the world of perfumery, but eventually lead to the ability to digitize and reproduce smells on command. A proposed framework for odors, created by neurobiologists, computer scientists, and a master perfumer and funded by a European Commission initiative called Future and Emerging Technologies (FET) Open, was published in Nature.
https://www.weizmann-usa.org/news-media/news-releases/israel-joins-quantum-computing-club/
Mar 22, 2022...
REHOVOT, ISRAEL—March 22, 2022—Building a working quantum computer is such a daunting venture that many believe it’s only for tech giants and superpowers, something on a scale beyond Israel’s reach.
Prof. Roee Ozeri of the Weizmann Institute of Science begs to differ: “One of the world’s first computers, WEIZAC, was built here in the 1950s, when all Israel had was swamps and camels. Today Israel is a technological empire; there’s no reason we shouldn’t be front-runners in the quantum computing race.”
Jun 17, 2022... Over the last quarter-century, artificial intelligence (AI) has made the leap from science fiction to everyday life. A world leader in computing since the 1950s, the Weizmann Institute of Science remains at the forefront of progress with its Artificial Intelligence Enterprise for Scientific Discovery. In this webinar, Prof. Roee Ozeri provided an overview of this growing flagship initiative and shared insight on how AI can help every scientist, in every discipline, on the Weizmann Campus. Prof. Yaron Lipman of the Department of Computer Science and Applied Mathematics later joined the session to discuss how AI is already beginning to transform daily activities – such as driving, computer graphics, and artwork – before elaborating on how Weizmann scientists are using this knowledge to accelerate progress in other applications, including cardiac ultrasounds and other health care needs. After the presentation, Prof. Lipman answered questions from webinar participants.
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