Mazin said: "I am honored to receive the PECASE award. The breakthroughs in superconducting detectors my team is making have the potential to transform astronomy across the electromagnetic spectrum. I would like to thank NASA for the funding that has enabled this work, and look forward to continuing to develop innovative instrumentation for astrophysics."
In his research, Mazin uses a unique detector technology called microwave kinetic inductance detectors (MKIDs) for astronomy in the near infrared, optical, ultraviolet, and X-ray wavelengths. These detectors allow his research team to determine the energy and arrival time of individual photons. Mazin hopes to use this technology to detect Earth-like planets around nearby stars, as well as many general applications in astrophysics, such as untangling the emission mechanisms of pulsars. He received his B.S. in astronomy and physics, and mechanical engineering at Yale University in 1997. He completed his Ph.D. in astrophysics at the California Institute of Technology in 2004.
Pennathur said: "I am honored to be awarded a PECASE award to further my research in the development of a nanofluidic tool for protein transport and kinetic measurements. I would like to sincerely thank the combined support of the U.S. Army Research Office, and UCSB's Institute of Collaborative Biotechnologies, Department of Mechanical Engineering, and California NanoSystems Institute to make this dream possible."
Pennathur's research is focused on using fundamental fluidics knowledge at both microscale and nanoscale to create novel devices for practical applications. Major efforts include creating and developing enabling tools
|Contact: Gail Gallessich|
University of California - Santa Barbara