Dr. Bakhtiyar Ruzybayev obtained his Ph.D. degree in 2013 in experimental astroparticle physics under the supervision of Prof. Thomas K. Gaisser. During his doctoral work he measured the all-particle cosmic ray energy spectrum with the IceTop air shower array, located at the geographical South Pole. He is currently a post doctoral researcher at the University of Delaware and is starting a new position in August of 2014 at the Wisconsin IceCube Particle Astrophysics Center (WIPAC) at the University of Wisconsin, Madison. Dr. Ruzybayev and his wife Inci, who is working towards her Ph.D. with Prof. Ismat Shah in the Department of Physics and Astronomy, are expecting their first child in April.
Dr. Shabbar Raza Rizvi obtained his Ph.D. degree in 2013 in theoretical particle physics under the supervision of Prof. Qaisar Shafi. The topic of his Ph.D. thesis was Low Energy Predictions from Supersymmetric Grand Unified Theories. He is currently a post doctoral fellow at Kavli Institute of Theoretical Physics China, Chinese Academy of Sciences, Beijing.
Dr. DuBois received his Ph.D. in 2003 while working on Quantum Monte Carlo many-body simulations of mesoscopic Bose and fermionic systems under the supervision of Prof. Glyde. After a postdoctoral fellowship at the University of California Berkeley, he became a research scientist at the Lawrence Livermore National Laboratory.
Dr. Ryan Stearrett obtained his Ph.D. degree in 2013 in experimental condensed matter physics under the supervision of Prof. Edmund R. Nowak. The topic of his Ph.D. thesis was magnetization fluctuations and electronic noise in exchange-biased magnetic tunnel junctions during annealing. He is currently a process engineer at Intel in Oregon.
Dr. Sean Oughton obtained his Ph.D. degree in 1993 in space and plasma physics under the supervision of Prof. William H. Matthaeus. The topic of his Ph.D. thesis was Transport of Solar Wind Fluctuations: A Turbulence Approach. He is currently Associate Professor of Applied Mathematics at the University of Waikato in New Zealand. He is the author of more than 70 publications focused on hydrodynamic and magnetohydrodynamic (MHD) turbulence, especially in connection with space physics applications.
Dr. Peter Thejll received his Ph.D. in astrophysics in 1989 under the supervision of Prof. H. L. Shipman. His thesis research was focused on white dwarfs. He was a Carlsberg Fellow at the Niels Bohr Institute and worked at the Nordic Institute for Theoretical Physics. Dr. Thejll currently is a senior scientist at the Danish Meteorological Institute in Copenhagen. He is currently involved in the creation of a global automatic system to observe the Earth's reflectivity - albedo - using observations of the earthshine on the Moon. Dr. Thejll research in solar variation helped provide conclusive evidence of the greenhouse effect on the Earth's climate in the late 20th century. In particular, his landmark study with Knud Lassen on Northern Hemisphere land air temperature showed that the rise of 0.4 degrees Celsius since 1980 could not be accounted for by the solar cycle. Climatologists have pointed to this finding as an "actual piece of evidence for greenhouse warming."
Dr. Wang received his Ph.D. in 2008 for the studies of magnetic tunnel junctions (MTJs) under the supervision of Prof. Xiao within the Center for Spintronics and Biodetection. During his subsequent postdoctoral research at the Johns Hopkins University, he published several high profile articles, including Nature Materials on spin-transfer torque in MTJs assisted by electric field to reach the limit of ultralow energy consumption. Dr. Wang has started as an Assistant Professor of Physics at the University of Arizona Tucson in 2012.
While working on his Ph.D. thesis at UD Center for Spintronics and Biodetection, Prof. Moriyama set up seminal experiments that have ignited the field of spin pumping in magnetic tunnel junctions. Takahiro is currently an Assistant Professor in the Nano Spintronics Lab at Kyoto University, one of the most prestigious universities in Japan. After graduating in 2008, his career path included a postdoctoral position in nanoscale physics research conducted by Ralph Group at Cornell University and as industrial physicist position at Headway/MagIC/TDK.
Prof. Bindiya Arora completed her Ph.D. degree in 2008 with Dr. Marianna Safronova. During her Ph.D. she worked on the modeling of atomic systems for atomic clocks and quantum computation. After completion of her Ph.D. she worked at Guru Nanak Dev University (GNDU), Punjab, India as a guest researcher for two years, and then at the Indian Institute of Science Education and Research (IISER), Mohali, India as a scientist. Thereafter she joined the Department of Physics, GNDU as Assistant Professor.
Prof. Bindiya was recently awarded the Young Scientist Award by the Punjab Science Congress for her outstanding work in the field of Blackbody radiation shift calculations for optical clocks. She has also been awarded a three year funding from the Government of India to work on a project based on Quantum Information. She is working in collaboration with the National Physical Lab, New Delhi on the development of atomic and optical clocks, which serve as India’s primary time ad frequency standard. At present, she is mentoring a Ph.D. student and is actively involved in building a strong Atomic Physics group at Guru Nanak Dev University.
Dr. Misquitta received his Ph.D. in 2004 while working on the subject of intermolecular perturbation theory under the supervision of Prof. Szalewicz. He currently works in the Cavendish Laboratory at the University of Cambridge in UK, and has been a College Lecturer at Murray Edwards College since 2009. His main research focus is concerned with understanding molecular aggregation from first principles, which he addresses through theoretical approaches. Dr. Misquitta has developed an electronic structure method called SAPT(DFT) and has written computer programs which implement this and other theoretical methods which are used by over 300 research groups worldwide. Practical outcomes include applications in the fields of organic crystals, soot formation in combustion engines, surface science and nano-materials.