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  • Accolades

Physics Illinois alumnus M. George Craford has been selected for the IEEE Edison Medal of the Institute of Electrical and Electronics Engineers. The medal is awarded annually in recognition of a career of meritorious achievement in electrical science, electrical engineering, or the electrical arts. The citation reads, "for a lifetime of pioneering contributions to the development and commercialization of visible LED materials and devices."

Craford is best known for his invention of the first yellow light emitting diode (LED). During his career, he developed and commercialized the technologies yielding the highest-brightness yellow, amber, and red LEDs as well as world-class blue LEDs. 

  • Accolades

Toni Pitts, coordinator of recruiting and special programs at Physics Illinois, has received the Leadership in Diversity Award from The Office of Diversity, Equity and Access at the University of Illinois at Urbana-Champaign. This award recognizes exceptional dedication to and success in promoting diversity and inclusion via research, hiring practices, courses, programs and events.

  • Research

Nature is full of parasites—organisms that flourish and proliferate at the expense of another species. Surprisingly, these same competing roles of parasite and host can be found in the microscopic molecular world of the cell. A new study by two Illinois researchers has demonstrated that dynamic elements within the human genome interact with each other in a way that strongly resembles the patterns seen in populations of predators and prey.

The findings, published in Physical Review Letters by physicists Chi Xue and Nigel Goldenfeld, (DOI: 10.1103/PhysRevLett.117.208101) are an important step toward understanding the complex ways that genomes change over the lifetime of individual organisms, and how they evolve over generations.

  • In Memoriam

Klaus Schulten, professor of physics and Beckman Institute faculty member for nearly 25 years, passed away after an illness in late October, 2016. In this memorial tribute, Schulten discusses his research and his love of exploring how nature works.

Schulten, who led Beckman’s Theoretical and Computational Biophysics Group, was a leader in the field of biophysics, conducting seminal work in the area of dynamic computer simulations, illuminating biological processes and structures in ways that weren’t possible before.

Schulten’s goal from his start as an original Beckman researcher was to use mathematics and physics to study the natural world through advanced computation.

Schulten’s group has created simulations that have provided never-before-seen views of such function as the chemical structure of the HIV capsid and the first-ever simulation of an entire life form, the complete satellite tobacco mosaic virus.

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