News & Events
The 2015 launch of Engineers Week was celebrated at Caltech with a panel discussion on diversity and how engineers are making a world of difference. The event was designed to energize national and international groups in their planning of programs and events to celebrate the accomplishments of engineers as well as to inspire the next generation during Engineers Week, which will be February 21–26, 2016. [Watch the webcast]
Julia R. Greer, Professor of Materials Science and Mechanics, and colleagues including graduate student David Chen have shown that metallic glasses has an atomic-level structure although it differs from the periodic lattices that characterize crystalline metals. "Our group has solved this paradox by showing that atoms are only arranged fractally up to a certain scale," Greer says. "Larger than that scale, clusters of atoms are packed randomly and tightly, making a fully dense material, just like a regular metal. So we can have something that is both fractal and fully dense." [Caltech story]
In celebration of Women’s History Month, influential women leaders from the Jet Propulsion Laboratory (JPL) and Caltech gathered at the JPL von Karman auditorium. Present at the event, entitled Women Making History, were the 2015 honorees for Women@JPL as well as Caltech faculty and staff. It was an opportunity for women at different stages of their career to meet and network. EAS faculty were represented by Professors Bordoni, Greer, and Hunt. The JPL Advisory Council for Women was the lead organizer of the event.
Students in Professor Hillary Mushkin’s media arts seminar (E/H/Art 89 New Media Arts in the 20th and 21st Centuries) have once again put on a unique exhibition highlighting art and engineering. The course provides a platform for an expanded understanding of engineering and an active, project-based engagement with art history.
Professor Julia Greer’s work on nanolattices is part of the 2015 MIT Technology Review’s 10 Breakthrough Technologies List. The list identifies the ten milestones from the past year that solve difficult problems or create powerful new ways of using technology. Professor Greer was selected for her work on nanomaterials and specifically “materials whose structures can be precisely tailored so they are strong yet flexible and extremely light.” [Learn more]
Professors Harry Atwater, Morteza Gharib, Guruswami Ravichandran, and Robert Grubbs have been elected to the National Academy of Engineering (NAE). Professor Atwater was elected for contributions to plasmonics. Professor Gharib was elected for contributions to fluid flow diagnostics and imagery, and engineering of bioinspired devices and phenomena. Professor Ravichandran was elected for contributions to mechanics of dynamic deformation, damage, and failure of engineering materials. Professor Grubbs was elected for developments in catalysts that have enabled commercial products.
Julia R. Greer, Professor of Materials Science and Mechanics, and graduate student Lucas R. Meza’s paper entitled “Mechanical characterization of hollow ceramic nanolattices” is the winner of the 2014 Journal of Materials Science Robert W. Cahn Best Paper Prize. The prize recognizes a truly exceptional original research paper published in the journal in a particular calendar year. The winning paper is selected from the twelve finalists by a panel of distinguished materials scientists
Julia R. Greer, Professor of Materials Science and Mechanics, has been awarded the Kavli Early Career Lecture in Nanoscience. This honor recognizes significant novel contributions to materials science by a young researcher in the early stages of her career. Professor Greer’s nomination emphasized her creative, ingenious, and elegant work in nanoscience.
Julia R. Greer, Professor of Materials Science and Mechanics, and her colleagues are on the path to developing materials that possess unheard-of combinations of properties. "Ceramics have always been thought to be heavy and brittle," says Professor Greer. "We're showing that in fact, they don't have to be either. This very clearly demonstrates that if you use the concept of the nanoscale to create structures and then use those nanostructures like LEGO to construct larger materials, you can obtain nearly any set of properties you want. You can create materials by design." [Caltech Release]