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May 5, 2021
COLLEGE PARK, Md. - Two University of Maryland faculty members Michele Gelfand, a distinguished professor of psychology, and Alessandra Buonanno a research professor of physics have been elected to the Gelfand was recognized for her achievements in original research and is known for many innovative projects, including her theories on tight and loose cultures, as described in her groundbreaking book, This is such an honor for Michele, said Professor Michael Dougherty, chair of the psychology department. We re extremely proud of her accomplishments, and are proud to have her as a Terp. Her election is the latest of many honors, including the 2020 Rubin Theory to Practice Award from the International Society for Conflict Management, the 2020 Katzell Award from the Society for Industrial and Organizational Psychology, election in 2019 to the American Academy of Arts and Sciences, the Outstanding Contributions to Cultural Psychology Award from the Society for
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IMAGE: Michael Franz of the University of California, Irvine is the recipient of the ACM Charles P. Chuck Thacker Breakthrough in Computing Award. view more
Credit: Markus Hörster/TU Braunschweig
ACM, the Association for Computing Machinery, today announced that Michael Franz of the University of California, Irvine is the recipient of the ACM Charles P. Chuck Thacker Breakthrough in Computing Award. Franz is recognized for the development of just-in-time compilation techniques that enable fast and feature-rich web services on the internet. Every day, millions of people around the world use online applications such as Gmail and Facebook. These web applications would not have been possible without the groundbreaking compilation technique Franz developed in the mid 1990s.
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Abstract
Small-scale soft-bodied machines that respond to externally applied magnetic field have attracted wide research interest because of their unique capabilities and promising potential in a variety of fields, especially for biomedical applications. When the size of such machines approach the sub-millimeter scale, their designs and functionalities are severely constrained by the available fabrication methods, which only work with limited materials, geometries, and magnetization profiles. To free such constraints, here, we propose a bottom-up assembly-based 3D microfabrication approach to create complex 3D miniature wireless magnetic soft machines at the milli- and sub-millimeter scale with arbitrary multimaterial compositions, arbitrary 3D geometries, and arbitrary programmable 3D magnetization profiles at high spatial resolution. This approach helps us concurrently realize diverse characteristics on the machines, including programmable shape morphing
Faith Osier: inspirational immunologist thelancet.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from thelancet.com Daily Mail and Mail on Sunday newspapers.