2021-2023 Graduate Catalog [ARCHIVED CATALOG]
Physics
|
|
Return to: Academic Departments
190 Mathematics and Science Center • (248) 370-3416 • Fax (248) 370-3408 (map)
www.oakland.edu/physics
Chair:
Andrei N. Slavin
186G Mathematics and Science Center
(248) 370-3401
slavin@oakland.edu
Professors emeriti:
Abraham R. Liboff, Ph.D., New York University
Ralph C. Mobley, Ph.D., University of Wisconsin
Bradley J. Roth, Ph.D., Vanderbilt University
Norman Tepley, Ph.D., Massachusetts Institute of
Technology
Paul A. Tipler, Ph.D., University of Illinois
William D. Wallace, Ph.D., Wayne State University
Distinguished professors:
Michael J. Chopp, Ph.D., New York University
Andrei N. Slavin, Ph.D., Leningrad Technical University
(Russia)
Gopalan Srinivasan, Ph.D., Indian Institute of Technology
(India)
Yang Xia, Ph.D., Massey University (New Zealand
Professors:
Ken Elder, Ph.D., University of Toronto (Canada)
David Garfinkle, Ph.D., University of Chicago
Alberto G. Rojo, Ph.D., Instituto Balseiro Bariloche
(Argentina)
Associate professors:
Kapila Clara Castoldi, Ph.D., University of Milan (Italy)
Evgeniy Khain, Ph.D., Hebrew University of Jerusalem
(Israel)
Eugene Surdutovich, Ph.D., Wayne State University
Yuejian Wang, Ph.D., Texas Christian University
Wei Zhang, Ph.D., University of Washington
Assistant professor:
Ilias Cholis, Ph.D., New York University
Vasyl Tyberkevych, Ph.D., Kiev National Taras Shevchenko University (Ukraine)
|
|
Visiting assistant professor:
Steffan Puwal, Oakland University
Adjunct professors of physics:
Grant R. Gerhart, Ph.D., Wayne State University
Quan Jiang, Ph.D., Oakland University
Bryan Shumaker, M.D., Michigan State University
Adjunct professors of medical physics:
Jieli Chen, M.D., Tianjin Medical University (China)
Indrin J. Chetty, Ph.D., UCLA
Xuanfeng Ding, Ph.D., Wake Forest University
James R. Ewing, Ph.D., Oakland University
Carrie K. Glide-Hurst, Ph.D., Wayne State University
Thomas Guerrero, M.D., University of California
Hamid Soltanian-Zadeh, Ph.D., University of Michigan
George Wilson, Ph.D., University of Liverpool (United Kingdom)
Di Yan, Ph.D., Washington University
Adjunct associate professors of physics:
Rao Bidthanapally, Ph.D., Indian Institute of Technology, Bombay
(India)
Adjunct associate professors of medical physics:
Susan Bowyer, Ph.D., Oakland University
Kenneth Jenrow, Ph.D., Oakland University
Robert Knight, Ph.D., Oakland University
Adjunct assistant professors of medical physics:
Edward Castillo, Ph.D., Rice University
Steffan Puwal, Oakland University
Chunqi Qian, University of California, Berkeley
Somayyeh Sheikholeslami, University of Southern Mississippi
David Solis, Rice University
|
Research fields and facilities
The Department of Physics faculty are currently involved in research in the following broad areas: biophysics and medical physics, condensed matter physics theory and experiment, and gravitational physics theory. Specifically, the biophysics and medical physics group has been studying and developing therapies for the treatment of neural injury and neurodegenerative diseases and brain tumors, the biophysics and biomechanics of osteoarthritis, cardiac electrophysiology, and the invasion and clustering of cancer cells. Methods and tools employed in these studies include NMR imaging, NMR microscopy, multi-modality microscopic imaging, in vivo NMR spectroscopy, neuromagnetism, two-photon laser scanning confocal microscopy, laser-capture microscopy, time-lapse microscopy, electron microscopy, and advanced molecular biological methods and mathematical analyses. The condensed matter physics group conducts theoretical studies of the linear and nonlinear dynamics of spin waves and phenomena associated with phase transitions and experiments on magnetic properties of technologically useful materials, optical properties of semiconductors and carbon nanotubes under high pressure, instabilities and pattern formation in granular matter, front propagation in biological systems, and crystal growth of diamond films and silicon ribbons. The gravitational theory group’s research centers on critical phenomena, chaos, and the nature of generic singularities in Einstein’s theory of general relativity.
Research facilities in the high pressure optics laboratory include Raman spectrometers with single or multi-channel detectors, facilities for photoluminescence studies in the visible and infrared regions, argon ion and Ti: sapphire lasers, high pressure cells capable of generating 10 GPa, and closed cycle helium refrigerators. Research facilities in the condensed matter physics laboratories include a Magneto-optical Kerr Effect spectroscopy, fiber optics Kerr spectroscopy, low-noise probe station, Faraday Magnetometer, an AC susceptometer, a ferromagnetic resonance spectrometer at x-band, a scanning probe microscope, a scanning microwave microscope, vector network analyzers (1 kHz-110 GHz), a Philips x-ray diffractometer, one and two kilowatt RF power supplies with 50W matching networks for silicon ribbon growth, and vacuum facilities for thin film evaporation and fullerene preparation. Research facilities in the NMR microscopy laboratory include a Bruker AVANCE IIIHD 300 NMR spectrometer with a 7-Tesla/89-mm bore superconducting magnet and micro-imaging accessories, PerkinElmer Spotlight 300 Fourier-transform infrared microscope, Leica polarized light microscope, Skyscan 1174 micro-CT scanner, and Endura TEC 3200 mechanical testing system. The department also has microwave device facilities in the frequency range from 100 kHz to 70 GHz. Supporting facilities include electronics and mechanical workshops staffed by experienced technical personnel. Computer facilities include a 200-node supercomputer cluster for high performance computing, plus a number of workstations, and numerous Macintosh and PC computers. Most research laboratories are located in the modern Mathematics and Science Center.
The Physics Department has two modern computer clusters, the newest one, funded through the NSF Major Research Instrumentation Program, is composed of 24 nodes containing two AMD Opteron 6136 “Magny-Cours” running at 2.4 GHz, with 8 cores and 64 GB RAM each, for a total of 384 cores and more than 1.5 TB of RAM. In addition, the two head nodes combined provide 18 TB of hard disk space. Both clusters are located in modern computer rooms at the Oakland Information Technology Center.
Among research facilities in neighboring hospitals available to medical physics students are a 3.0-Tesla whole-body NMR system and two 7.0-Telsa/20-cm horizontal bore magnet NMR systems for imaging and in vivo spectroscopy, a 7-channel SQUID magnetometer, a 148-channel whole-head SQUID neuromagnetometer, a Zeiss LSM 510 two photon microscope, Leica LMD 6000 laser microdissection system, Philips EM208 transmission electron microscope, a nuclear medicine laboratory, radiology and CT scanning facilities, advanced modalities cancer therapy laboratory (including radiotherapy), diagnostic ultrasonic equipment, a laser surgery laboratory, and major hospital medical libraries.
ProgramsDoctoralMasters
Return to: Academic Departments
|