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.
https://www.weizmann-usa.org/news-media/news-releases/science-tips-march-2013/
Mar 18, 2013... For years, scientists around the world have dreamed of building a complete, functional, artificial cell. Though this vision is still a distant blur on the horizon, many are making progress on various fronts. Prof. Roy Bar-Ziv and his research team in the Weizmann Institute’s Materials and Interfaces Department recently took a significant step in this direction when they created a two-dimensional, cell-like system on a glass chip. This system, composed of some of the basic biological molecules found in cells — DNA, RNA, proteins — carried out one of the central functions of a living cell: gene expression, the process by which the information stored in the genes is translated into proteins. More than that, it enabled the scientists, led by research student Yael Heyman, to obtain “snapshots” of this process in nanoscale resolution.
https://www.weizmann-usa.org/news-media/news-releases/the-world-s-first-photonic-router/
Jul 14, 2014...
Dr. Barak Dayan in the quantum computing lab where the photonic router was developed.
REHOVOT, ISRAEL—July 14, 2014—Weizmann Institute of Science researchers have, for the first time, demonstrated a photonic router – a quantum device based on a single atom that enables routing of single photons by single photons. This achievement, as reported in Science magazine, is another step toward overcoming the difficulties in building quantum computers.
https://www.weizmann-usa.org/news-media/in-the-news/one-atom-two-photons-quantum-computing-switch/
Jul 11, 2014...
Photo: Weizmann Institute of Science
A scheme that uses a single atom to switch the direction of a single photon could pave the way toward quantum computers much more powerful than today’s machines.
The setup is described this week in the online issue of Science by researchers from the Weizmann Institute of Science in Rehovot, Israel. In simple terms, the atom can be in one of two states, either “left” or “right.” If the atom is in the left state, a photon that strikes it from the left will continue on in the same direction, as if it hadn’t hit the atom at all. A photon coming from the right, however, will be reflected back in the direction it came from, and at the same time the interaction will cause the atom to flip from left to right. Left and right can stand in for the 1s and 0s of digital logic.
https://www.weizmann-usa.org/news-media/feature-stories/looking-back-looking-forward/
Apr 11, 2016... In a place that fosters curiosity and the pursuit of "what if," where scientists come to work every day with the knowledge that anything can happen, astounding discoveries are realized on a regular basis. That place is the Weizmann Institute of Science, where accomplishments are so remarkable and varied that, at times, we need to pause and take it all in. The beginning of a new year is just such a time.
https://www.weizmann-usa.org/news-media/feature-stories/creating-tomorrow-s-computers/
Jun 01, 2012... Tiny particles such as atoms and electrons often behave in mysterious and surprising ways. Unlike larger objects composed of many particles, they can, for instance,exist simultaneously in more than one state. “According to the laws of quantum mechanics, a single atom can be in multiple locations at the same time and can be doing different things at the same time. We physicists call this the superposition principle,” says Dr. Roee Ozeri of the Weizmann Institute of Science’s Department of Physics of Complex Systems.
https://www.weizmann-usa.org/news-media/news-releases/science-tips-july-2014/
Jul 28, 2014... Using the body’s natural virus killers to prevent and treat HIV infection has been problematic until now because of the strong inflammatory response these molecules can stimulate as they get rid of the invaders. Now, collaborative research conducted by scientists at the Weizmann Institute and the National Institutes of Health (NIH) have demonstrated how suppressing the activity of these molecules – interferons – around the time of infection could have long-term implications for the course of the disease. Their research appeared in Nature.
Jun 24, 2018...
Kevin Hong for Quanta Magazine
Early on in the study of quantum computers, computer scientists posed a question whose answer, they knew, would reveal something deep about the power of these futuristic machines. Twenty-five years later, it’s been all but solved. In a paper posted online at the end of May, computer scientists Ran Raz and Avishay Tal provide strong evidence that quantum computers possess a computing capacity beyond anything classical computers could ever achieve.
https://www.weizmann-usa.org/news-media/in-the-news/could-the-next-einstein-be-a-surfer-dude/
Mar 01, 2008... This article can be viewed by downloading the PDF.
Jun 20, 2019... ‘This is the first time anyone has been able to control the spatial orientation of chiral molecules with light,’ says Ilya Averbukh from the Weizmann Institute of Science in Israel. His theory group teamed up with Valery Milner’s experimental team from the University of British Columbia, Canada, to build a laser setup called an optical centrifuge that can spin chiral molecules depending on their handedness.
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.
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