Majorana Fermions, Topological Insulators and Superconductors
Magnetic diffraction pattern for a Josephson junction with a topological insulator weak link. Building on a theoretical description published in 2008 by Prof. Charles Kane and Liang Fu at Penn, Stanford researchers believe the unusual behavior is explained in terms of Majorana fermions.
Penn Summer Science Academy in Experimental Physics
PSSA - Experimental Physics is a four week program that focuses on modern physics with an emphasis on hands-on experience and laboratory work. There is no requirement of a previous physics course, although typically about half of our students have taken one prior to attending PSSA.
MUSTANG - a Penn Radio Telescope Array
Penn,the National Institute of Standards and Technology, NASA's Goddard Space Flight Center, and the National Radio Astronomy Observatory, have built a 3 millimeter array of 8x8 TES detectors for the Green Bank Telescope (GBT).
DNA-Carbon Nanotube Hybrid
Single-stranded DNA and carbon nanotubes are chemically compatible and readily self-assemble into DNA-carbon nanotube hybrids (pictured here). These materials have applications in nanoelectronics, medicine, environmental safety and homeland security. Dr. Robert R. Johnson of the University of Pennsylvania has used computer simulation to study the structure of these nanomaterials.
DNA through a Solid State Nanopore
Dr. Meni Wanunu, Dr. Marija Drndic and others at the University of Pennsylvania have threaded DNA through solid state nanopores in order to gain information about chemically modified DNA. The image depicts chemically modified DNA translocating through a nanoscale pore in silicon nitride.
Professor Brody’s love of tennis, perhaps like Newton’s, was never quite matched by his skill. From fumbling tournaments in high school (“The coach gave up”), he progressed to four years of varsity play at MIT, and for one heady month coached the men’s team at the University of Pennsylvania where, for almost all his career, he was a physics professor.
If dark energy is hiding in the form of hypothetical particles called “chameleons,” a team of researchers at the University of Pennsylvania and the University of California, Berkeley, plans to flush them out.