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UNIVERSITY OF UTAH DEPARTMENT OF PHYSICS AND ASTRONOMY Salt Lake City, Utah 84112-0830 http://www.physicsutahedu General University Information President: Ruth Watkins Dean of Graduate School: David Kieda University website: http://www.utahedu/ School Type: Public Setting: Urban Total Faculty: 4,786 Total Graduate Faculty: 1,721 Total number of Students: 32,994 Total number of Graduate Students: 8,251 The GRE Physics is not required. No minimum subject GRE score required. TOEFL requirements The TOEFL exam is required for students from non-Englishspeaking countries. Minimum accepted TOEFL scores: PBT score: 550 iBT score: 80 IELTS score of 6.5 or better is also accepted Other admissions information Department Information Department Chair: Prof. Christoph Boehme, Chair Department Contact: Bryce Nelson, Graduate Coordinator Total full-time faculty: 30 Total number of full-time equivalent positions: 44 Full-Time Graduate Students: 70 Female Full-Time Graduate Students: 27 First-Year
Graduate Students: 14 Female First-Year Students: 6 Total Post Doctorates: 19 Department Address 115 South 1400 East #201 Salt Lake City, UT 84112-0830 Phone: 共801兲 581-6901 Fax: 共801兲 581-6861 E-mail: u6022167@utah.edu Website: http://www.physicsutahedu ADMISSIONS Admission Contact Information Address admission inquiries to: Graduate Coordinator, Department of Physics and Astronomy, 115 South 1400 East #201, Salt Lake City, UT 84112-0830 Phone: 共801兲 581-6861 E-mail: admissions@physics.utahedu Admissions website: http://admissions.utahedu/apply/graduate/ Application deadlines Fall admission: U.S students: January 15 GRE Physics requirements Int’l. students: January 15 Application fee U.S students: $55 Int’l. students: $75 http://www.physicsutahedu Please contact admissions@physics.utahedu for questions about application fee waivers. Admissions information For Fall of 2019: Number enrolled: 14 Admission requirements Bachelor’s degree requirements: A
Bachelor’s degree in Physics is required or a Bachelor’s degree in a closely related field (science or engineering) with a strong physics and math background. Minimum undergraduate GPA: 3.0 GRE requirements The GRE is required. There is no minimum required score. Additional requirements: Bachelor’s degree from an accredited school. Undergraduate preparation assumed: Thornton & Marion, Classical Dynamics; Griffiths, Electricity and Magnetism; Griffiths, Quantum Mechanics; Tipler, Modern Physics. TUITION AND ASSISTANTSHIPS Teaching Assistants, Research Assistants, and Fellowships Number of first-year Teaching Assistants: 14 Average stipend per academic year Teaching Assistant: $25,740 Research Assistant: $25,740 Tuition year 2019 –20: Tuition for in-state residents Full-time students: $3,913 per semester Part-time students: $1,626.95 per credit Tuition for out-of-state residents Full-time students: $12,347 per semester Part-time students: $4,569.21 per credit Tuition
benefits are available to incoming students in good academic standing. Please see the Graduate School website for details. http://gradschoolutahedu Credit hours per semester to be considered full-time: 9 Deferred tuition plan: No Health insurance: varies per semester Other academic fees: Mandatory University fees. Some lab classes have special fees. Academic term: Semester Number of first-year students who received full tuition waivers: 14 FINANCIAL AID Application deadlines Fall admission: U.S students: February 1 Int’l. students: February 1 Loans Loans are available for U.S students Loans are not available for international students. GAPSFAS application required: No FAFSA application required: Yes For further information Address financial aid inquiries to: Financial Aid & Scholarships, 201 S. 1460 E, Salt Lake City, UT 84112 Phone: 共801兲 581-6211 E-mail: financialaid@sa.utahedu 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2)
2019 American Institute of Physics 1 Utah U. of Utah, Phys & Astro Financial aid website: https://financialaid.utahedu/indexphp HOUSING Availability of on-campus housing Single students: Yes Married students: Yes Childcare Assistance: No SPECIAL EQUIPMENT, FACILITIES, OR PROGRAMS For further information Address housing inquiries to: Office of Residential Living, 5 Heritage Center, Salt Lake City, UT 84112-2036. Phone: 共801兲 587-2002 E-mail: info@housing.utahedu Housing aid website: https://housing.utahedu/housing-options/ graduate-housing/ Table AFaculty, Enrollments, and Degrees Granted Number of Degrees Granted 2018–2019 (2003–10) Enrollment Fall 2019 Research Specialty Acoustics Applied Physics Astronomy Astrophysics Atmosphere, Space Physics, Cosmic Rays Biophysics Chemical Physics Condensed Matter Physics Medical, Health Physics Particles and Fields Physics and other Science Education Polymer Physics/Science Relativity & Gravitation Non-specialized
Total Full-time Grad. Stud First-year Grad. Stud 2019–20 Faculty Master’s Doctorate Master’s Terminal Master’s Doctorate – – 6 4 – – – – – – 4 20 –(3) –(3) –(18) – – – – – –(1) –(2) 1 – 4 3 1 1 1 – 7 2 1 –(1) – – – – – 3(4) 1 –(1) 11 9 3 – – – 24 1 3 1 1(6) – 2 – – – –(9) –(1) – – – –(1) – –(5) – 1 – – – – – 1 6 –(2) –(17) – – – – – 2(22) – 52 1 69 2(69) 4 11(46) – – 1 – 69 14 – – – – – – GRADUATE DEGREE REQUIREMENTS Master’s: Thirty graduate semester hours required with a 3.0 grade average in an approved program with satisfactory performance on Departmental Common Exam. Either thesis or non-thesis M.S available Master’s of Instrumentation: 30 graduate semester hours with a 3.0 grade average Nine to fifteen hours will be related to the instrumentation project. No language required. For admission, a
Bachelor’s degree in Engineering, Biology, Chemistry or some related field may be substituted for a degree in Physics. Doctorate: Forty-five graduate semester hours required. Satisfactory performance on Departmental Common Exam or GRE Physics required for admission to Ph.D program (no set minimum) Satisfactory performance (30 average) in an approved course program is required. Qualifying exam, dissertation and dissertation exam required. Teaching experience required, and one of last two years must be in residence. No language requirement Other Degrees: Interdisciplinary studies available in chemical physics, and a variety of other areas by special arrangement. The Ph.D program in Medical Physics is an interdisciplined 2 program in which complex medical and biological systems are studied using physics-based techniques and models. MA requirements are the same as M.S, except proficiency in one foreign language is required. MPhil requirements the same as Ph.D, except no dissertation
required Thesis: Thesis may be written in absentia. The Department maintains extensive facilities for teaching and research. The INSCC Building (Intermountain Network & Scientific Computation Center) houses seven state-of-the-art laser laboratories on the first floor run by several condensed matter and biophysics experimental groups. The research of one group focuses on time-resolved and steady state (cw) investigations of photo-excitations in solids, particularly in semiconductors. A state-of-the-art Ti:sapphire laser gives time resolution of 10 fs. Current efforts in this femtosecond laboratory include pulse amplification with a Nd:YAG laser and the generation of continuum pulses from the near-infrared to the UV. In the picosecond laboratory, two tunable synchronously pumped dye lasers are used for further photo-excitation studies. A 2D streak camera is used to measure the photoluminescence spectrum evolution with picosecond resolution. The laser laboratory has also been used to
study optical non-linear spectra in electronic polymers, solids, and other semiconductors. This includes spectra of two-photon absorption, nonlinear refractive index and third harmonic generation. Light absorption is measured from the UV to the far IR using self-contained commercial instruments (Cary 17 DX and Bruker IFS88, both recently upgraded with modern electronics), operated either by researchers or as a service provided by members of the technical staff. The single molecule spectroscopy group runs a low-temperature laser microscopy laboratory centering around a helium cryostat and a one-box femtosecond laser system with wide (680 nm-1080 nm) automated tunability. An FEI NovaNano Field emission Scanning Electron Microscope with 1.0 nm resolution (16 nm at 1 keV or low vacuum) is widely used for imaging. EDS analysis and e-beam lithography, a Leo 440i SEM is used for images requiring extremely large depth of field as well as for teaching. The Scanning Probe Microscopy Group has
many scanning probe microscopes, including several atomic force microscopes, a scanning tunneling microscope, two near-field optical microscopes, a scanning capacitance microscope and an ultra-high vacuum AFM/STM system. Several research groups within the department operate a variety of commercial and custom built electron and nuclear magnetic magnetic resonance spectrometers including a Bruker Elexsys E580 pulsed electron paramagnetic resonance facility and several electrically and optically detected magnetic resonance facilities. Two new biophysics laboratories are under construction. The first laboratory is located in the INSCC building. The focus of the group is on single molecule studies of molecular motor activity and other protein interactions. Equipment includes (or will shortly include) a high-resolution optical microscope with optical trapping and fluorescence capabilities, as well as auxiliary biological research equipment (e.g low-temperature refrigeration facilities and a
Beckman TL-100 ultracentrifuge) The second biophysics laboratory is under construction in the James Fletcher Building. This laboratory focuses on understanding the mechanism of enveloped virus budding using single molecule, fluorescence spectroscopy and high-resolution live cell imaging technologies A new iMIC digital microscope would be installed that is capable of confocal, TIRF, live cell imaging and fluorescence correlation spectroscopy. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2) 2019 American Institute of Physics United States: Geographic Listing of Graduate Programs In addition, the Department operated a fully equipped OptoElectronic Materials Laboratory for chemical synthesis (including organic semiconductors not commercially available), purification, growth of single crystals, vacuum/controlled atmosphere annealing, sample cutting and polishing, thin-film deposition via thermal evaporation of rf sputtering, as well as a wide
variety of techniques for chemical and physical characterization. A lowtemperature AFM/STM (5 Kelvin) from Omicron Nanotechnology should arrive by the end of 2010 The Astronomy and Astrophysics Group consists of nine fulltime faculty members who are leading research programs at world-class astronomical facilities. As full institutional members of the Third Sloan Digital Sky Survey, the astronomy research group pursues an active research program in the BOSS, APGEE and SEGUE surveys. The astronomy group also pursues observational research using facilities in Chile, Hawaii, and the southwestern United States The astronomy group is a key member of the proposed BigBOSS Observatory, a stage IV baryon acoustic oscillation survey designed to elucidate the formation of galaxies in the early universe, and properties of dark energy and dark matter. The Department operates the 32⬙ Willard L Eccles Observatory on Frisco Peak, Utah, approximately 200 miles from Salt Lake City. This high-altitude
(9600 ft asl) observatory is being developed for IR spectroscopy and imaging surveys. The department operates a pair of 3-meter interferometric telescopes at StarBase Utah, approximately 35 miles west of Salt Lake City. The South Physics observatory on campus houses the department 14⬙ fully automated telescope and several others with CCD photometers, spectrometers and other accessories. The gamma-ray research group pursues astrophysics research with the Very Energetic Radiation Imaging Telescope Array System (VERITAS) located near Tucson, Arizona. Its four 10-m telescopes make stereoscopic measurements of TeV gamma-rays from black holes, supernova remnants, pulsars and active galactic nuclei. Faculty members also pursue cosmic ray and gamma-ray research at the High-Altitude Water Cherenkov (HAWC) observatory, located on Sierra Negra, Mexico. The University of Utah is the host institution for the Telescope Array (TA) and Telescope Array LowEnergy Extension (TALE) projects, located 125
miles from Salt Lake City in the west-central Utah desert. Its ground array has more than 500 scintillation detectors covering 750 square kilometers, accompanied by three air-fluorescence detectors. Both TA and TALE are designed to study the highest-energy particles known, and both experiments make extensive use of the airfluorescence technique first successfully employed at Utah by the Fly’s Eye Experiment (1976-1991) here at University of Utah, Degree programs in astronomy are currently offered. The department has a robust wired and wireless local network designed with growth and flexibility in mind. The local network is integrated into a cutting edge university network dedicated to providing premier Internet services. Core user and computational services are provided by a dozen Sun Fire and Sun Enterprise servers accompanied by several powerful Linux and Windows servers. Data storage and backup are provided by a growing storage area network (SAN) currently totaling roughly one
terabyte of disk and ten terabytes of tape storage. We provide access to a large suite of programs for departmental use including Maple, Matlab, Mathematica, LabVIEW, Microsoft software and educational software. In addition, the University provides deeply discounted prices on hundreds of software titles through their office of software licensing. There are numerous open access terminals, desktops and printers in the department library, study areas, and the five open computer laboratories. Individual workstations are a mixture of Windows, Linux, Macintosh and UNIX. The department also supports several research groups that have various computational computers and multiple terabyte size data arrays, usually based on UNIX type architectures. Research groups also Utah have access to large computational clusters through the University’s Center for High-Performance Computing (CHPC), totaling well over 1500 processors in various clusters. Research is also supported by a professional
Research Machine Shop, as well as a Student Shop, the latter open to all faculty, staff, and students who have completed a training course. Both shops are equipped with state-of-the-art CNC lathes and mills, as well as cutting, drilling and welding equipment. The wellequipped wood shop allows fabrication of non-magnetic supports and shipping containers. The ample stockroom saves time and effort in procuring both common and hard-to-find materials and supplies. Table BSeparately Budgeted Research Expenditures by Source of Support Source of Support Departmental Research Federal government State/local government Non-profit organizations Business and industry Other $5,724,000 Total $6,067,000 Physics-related Research Outside Department $50,000 $117,000 $176,000 Table CSeparately Budgeted Research Expenditures by Research Specialty Research Specialty No. of Grants Expenditures ($) Applied Physics Astronomy Astrophysics Atmosphere, Space Physics, Cosmic Rays Biophysics
Computational Physics Computer Science Condensed Matter Physics Cosmology & String Theory High Energy Physics Nano Science and Technology Nonlinear Dynamics and Complex Systems Theoretical Physics 3 17 8 7 6 1 2 15 1 7 5 1 1 $141,000 $1,275,000 $564,000 $1,639,000 $303,000 $30,000 $266,000 $1,236,000 $117,000 $131,000 $169,000 $105,000 $91,000 Total 74 $6,067,000 FACULTY Distinguished University Professor Sokolsky, Pierre V., PhD, University of Illinois, 1973 Dean, College of Science. Astrophysics, Atmosphere, Space Physics, Cosmic Rays, Plasma and Fusion. Cosmic rays; high-energy physics. Vardeny, Zeev V., PhD, Technion, Israel, 1979 Atomic, Molecular, & Optical Physics, Biophysics, Condensed Matter Physics, Energy Sources & Environment, Materials Science, Metallurgy, Nano Science and Technology, Optics Experimental condensed matter. Wu, Yong-Shi, Ph.D, Chinese Academy of Sciences, 1965 Astrophysics, Condensed Matter Physics, Particles and Fields High-energy theory.
Professor Ailion, David C., PhD, University of Illinois, 1964 Atomic, Molecular, & Optical Physics, Biophysics, Condensed Matter Physics, Medical, Health Physics. Experimental condensed matter. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2) 2019 American Institute of Physics 3 Utah Boehme, Christoph, Ph.D, University of Marburg, 2003 Associate Chair Applied Physics, Chemical Physics, Condensed Matter Physics, Materials Science, Metallurgy, Nano Science and Technology. Experimental Condensed Matter Physics Bromley, Benjamin C., PhD, Dartmouth College, 1994 Astronomy, Astrophysics, Relativity & Gravitation Theoretical astrophysics Cassiday, George L., PhD, Cornell University, 1968 Astronomy, Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays. Dawson, Kyle, Ph.D, University of California, Berkeley, 2004 Astronomy and astrophysics. Astronomy, Astrophysics DeFord, John W., PhD, University of Illinois, 1962 Physics and
other Science Education. Physics education DeTar, Carleton E., PhD, University of California, Berkeley, 1970. Astrophysics, Particles and Fields Elementary particle theory. (ORCID: 0000-0002-0216-6771) Gondolo, Paolo, Ph.D, University of California, Los Angeles, 1991. Astronomy, Astrophysics, Particles and Fields Cosmology; dark matter Harris, Frank E., PhD, University of California, Berkeley, 1954. Chemical Physics Chemical physics Jui, Charles C., PhD, Stanford University, 1992 Atmosphere, Space Physics, Cosmic Rays, History & Philosophy of Physics/Science, Plasma and Fusion. Cosmic rays Kieda, David B., PhD, University of Pennsylvania, 1989 Department Chair Astronomy, Astrophysics, Atmosphere, Space Physics, Cosmic Rays. Experimental high-energy astrophysics Mishchenko, Eugene, Ph.D, Landau Institute for Theoretical Physics, Moscow, 1998. Condensed Matter Physics Theoretical condensed matter Raikh, Mikhail, Ph.D, Ioffe Physico Technical Institute, 1981 Condensed Matter Physics.
Theoretical condensed matter Springer, Wayne R., PhD, University of Maryland, 1991 Astronomy, Astrophysics, Atmosphere, Space Physics, Cosmic Rays, Computer Science, Particles and Fields, Plasma and Fusion. Experimental astrophysics Starykh, Oleg, Ph.D, Russian Academy of Science, 1991 Condensed Matter Physics Theoretical condensed matter Symko, Orest G., PhD, University of Oxford, 1967 Acoustics, Low Temperature Physics. Thermoacoustics Williams, Clayton C., PhD, Stanford University, 1984 Atomic, Molecular, & Optical Physics, Condensed Matter Physics, Electrical Engineering, Nano Science and Technology, Optics. Experimental condensed matter Associate Professor Belz, John, Ph.D, Temple University, 1993 Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays Bergman, Douglas, Ph.D, Yale University, 1997 Astrophysics, Atmosphere, Space Physics, Cosmic Rays, High Energy Physics. Cosmic rays; high-energy physics Deemyad, Shanti, Ph.D, Washington University, St Louis, 2004.
Condensed Matter Physics, Low Temperature Physics Experimental condensed matter. Gerton, Jordan, Ph.D, Rice University, 2001 Director for the Center of Science and Math Education. Biophysics, Condensed Matter Physics, Medical, Health Physics, Nano Science and Technology, Optics Experimental condensed matter LeBohec, Stephan, Ph.D, Paris XI University, 1992 Astronomy, Astrophysics, Particles and Fields. Experimental high-energy astrophysics. Rogachev, Andrey, Ph.D, Nagoya University, 2000 Condensed Matter Physics, Nano Science and Technology, Optics. Experimental condensed matter physics 4 U. of Utah, Phys & Astro Saffarian, Saveez, Ph.D, Washington University, St Louis, 2003. Biophysics Biophysics Sandick, Pearl, Ph.D, University of Minnesota, 2008 Astrophysics, Particles and Fields Theoretical high energy astrophysics Seth, Anil, Ph.D, University of Washington, 2006 Astronomy, Astrophysics. Astronomy and astrophysics Zheng, Zheng, Ph.D, Ohio State University, 2004 Astronomy,
Astrophysics. Astronomy and astrophysics Assistant Professor Barthelemy, Ramon, Ph.D, Western Michigan University, 2014 Physics and other Science Education. Physics Education Research Deshpande, Vikram V., PhD, California Institute of Technology, 2008 Applied Physics, Condensed Matter Physics Synthesis, nanofabrication, and combined electrical, mechanical, and optical measurements of ultra-high-quality graphene and carbon nanotube devices. Li, Yan (Sarah), Ph.D, University of California, Riverside, 2010 Condensed Matter Physics, Materials Science, Metallurgy. Spin noise spectroscopy of electrons and holes in semiconductor quantum dots. Vershinin, Michael, Ph.D, University of Illinois, 2004 Biophysics Biophysics Wik, Daniel R., PhD, University of Virginia, 2010 Astronomy, Astrophysics. Astronomy and astrophysics Zasowski, Gail, Ph.D, University of Virginia, 2012 Astronomy, Astrophysics. Astronomy and astrophysics Zhao, Yue, Ph.D, Rutgers University, 2012 High Energy Physics, Theoretical
Physics Emeritus Rudolph, Sidney, Ph.D, University of Utah, 1986 Physics education Thomson, Gordon B., PhD, Harvard University, 1972 Jack W Keuffel Chair. Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays Professor Emeritus Efros, Alexei L., PhD, Ioffe Physico Technical Institute, 1972 Condensed Matter Physics. Theoretical condensed matter Kuchar, Karel V., PhD, Charles University in Prague, 1966 Relativity & Gravitation. Relativity Mattis, Daniel C., PhD, University of Illinois, 1957 Condensed Matter Physics. Theoretical condensed matter Ohlsen, William D., PhD, Cornell University, 1961 Condensed Matter Physics. Experimental condensed matter Price, Richard, Ph.D, California Institute of Technology, 1971 Relativity & Gravitation. Sutherland, T. Bill, PhD, Stony Brook University, 1968 Condensed Matter Physics Theoretical condensed matter Taylor, P. Craig, PhD, Brown University, 1969 Condensed Matter Physics. Experimental condensed matter Williams, George A., PhD,
University of Illinois, 1956 Condensed Matter Physics Experimental condensed matter Research Professor Lupton, John M., PhD, University of Durham, London, 2001 Atomic, Molecular, & Optical Physics, Condensed Matter Physics, Materials Science, Metallurgy, Nano Science and Technology. Experimental condensed matter Matthews, John N., PhD, Rutgers University, 1995 Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2) 2019 American Institute of Physics United States: Geographic Listing of Graduate Programs Research Associate Professor AbuZayyad, Tareq, Ph.D, University of Utah, 2000 Astrophysics, Atmosphere, Space Physics, Cosmic Rays, Plasma and Fusion. Cosmic rays Brownstein, Joel R., PhD, University of Waterloo, 2009 Astronomy Galaxy evolution; BOSS; lensing Research Assistant Professor Abbasi, Rasha, Ph.D, University of Utah, 2007 Astrophysics, Cosmology & String Theory,
High Energy Physics. Abeysekara,Udara,Ph.D,MichiganStateUniversity,2014Astrophysics, Atmosphere, Space Physics, Cosmic Rays, High Energy Physics Lafalce, Evan, Ph.D, University of South Florida, 2014 Condensed Matter Physics, Materials Science, Metallurgy, Optics, Solid State Physics Liu, Haoliang, Ph.D, Chinese Academy of Sciences, 2012 Condensed Matter Physics, Materials Science, Metallurgy, Optics, Solid State Physics Malissa, Hans, Ph.D, Johannes Kepler University Linz, 2007 Condensed Matter Physics. Teaching Professor Ingebretsen, Richard J., PhD, University of Utah, 1989 MD Medical, Health Physics, Physics and other Science Education. Physics education, medical physics Laicher, Gernot, Ph.D, University of Utah, 1994 Atomic, Molecular, & Optical Physics, Condensed Matter Physics, Medical, Health Physics, Physics and other Science Education Experimental condensed matter Teaching Associate Professor Buehler, Tabitha C., PhD, Brigham Young University, 2011 Astronomy, Physics and
other Science Education. Astronomy Nyawelo, Tino S., PhD, National Institute for Nuclear Physics and High Energy Physics, 2004. Astrophysics, High Energy Physics, Particles and Fields, Theoretical Physics. Teaching education. Pantziris, Anthony, Ph.D, Brown University, 1987 Physics and other Science Education. Physics education Stone, Christopher, Ph.D, University of Utah, 1992 Physics and other Science Education. Physics education Teaching Assistant Professor De Grandi, Claudia, Ph.D, Boston University, 2011 Condensed Matter Physics, Physics and other Science Education, Solid State Physics, Theoretical Physics, Other. Physics Education Research. Adjunct Faculty Barth-Cohen, Lauren, Ph.D, University of California, Berkeley, 2012. Physics and other Science Education Blair, Steven, Ph.D, University of Colorado Boulder, 1998 Electrical Engineering, Nano Science and Technology. Nanophotonics Bolton, Adam, Ph.D, MIT, 2005 Astronomy Chubukov, Andrey, Ph.D, Moscow State University, 1985
Condensed Matter Physics. Condensed matter Ehrenfreund, Eitan, Ph.D, Hebrew University, 1970 Condensed Matter Physics Experimental condensed matter Facelli, Julio C., PhD, University of Buenos Aires, Argentina, 1981. Atomic, Molecular, & Optical Physics, Computer Science Nuclear magnetic resonance Utah Huentemeyer, Petra, Ph.D, University of Hamburg, 2001 Astrophysics High-energy astrophysics Jeong, Eun-Kee, Ph.D, Washington University, St Louis, 1991 Medical, Health Physics. MRI Johnson, Christopher R., PhD, University of Utah, 1989 Applied Mathematics, Computer Science Physics Liu, Feng, Ph.D, Virginia Commonwealth University, 1990 Chemical Physics, Materials Science, Metallurgy. McCamey, Dane, Ph.D, University of New South Wales, Sydney, 2007 Condensed Matter Physics Experimental condensed matter Miller, Joel, Ph.D, UCLA, 1971 Chemical Physics Parker, Dennis, Ph.D, University of Utah, 1978 Biophysics, Medical, Health Physics. Medical biophysics; computing Saam, Brian T., PhD,
Princeton University, 1995 Associate Dean, College of Science. Atomic, Molecular, & Optical Physics, Biophysics, Condensed Matter Physics, Medical, Health Physics. Experimental atomic/molecular Scarpulla, Michael, Ph.D, University of California, Berkeley, 2006. Electrical Engineering, Materials Science, Metallurgy Shahbazyan, Tigran, Ph.D, University of Utah, 1995 Condensed Matter Physics Theoretical condensed matter Sun, Dali, Ph.D, Institute of Physics, Chinese Academy of Sciences, 2009 Condensed Matter Physics DEPARTMENTAL RESEARCH SPECIALTIES AND STAFF Theoretical Astronomy. Bromley, Dawson, Gondolo, Pantziris, Seth, Springer, Wik, Zasowski, Zheng. Astrophysics. Belz, Bergman, Bromley, Brownstein, Dawson, DeTar, Gondolo, Pantziris, Price, Sandick, Seth, Wik, Zheng. Chemical Physics. Harris Condensed Matter Physics. Chubukov, Efros, LeBohec, Mishchenko, Raikh, Starykh, Sutherland, Wu Relativity & Gravitation. Bromley, Price Experimental Astronomy. Dawson, Kieda, Seth
Astrophysics. AbuZayyad, Belz, Bergman, Cassiday, Jui, Kieda, LeBohec, Matthews, Seth, Sokolsky, Springer. Biophysics. Gerton, Saffarian, Vershinin Condensed Matter Physics. Ailion, Boehme, Deemyad, Deshpande, Gerton, Jeong, Laicher, Feng Liu, Rogachev, Saam, Sun, Taylor, Vardeny, Clayton Williams. Low Temperature Physics. Boehme, Deemyad, Deshpande, Li, Vardeny. Materials Science, Metallurgy. Boehme, Feng Liu, Sun, Vardeny, Clayton Williams. Medical, Health Physics. Ailion, Gerton, Ingebretsen, Jeong, Laicher, Parker, Saam. Nano Science and Technology. Boehme, Deemyad, Deshpande, Gerton, Rogachev, Scarpulla, Sun, Taylor, Vardeny, Clayton Williams. Optics. Boehme, Gerton, Rogachev, Saam, Sun, Vardeny, Clayton Williams Particles and Fields. Bergman, Sokolsky, Springer Physics and other Science Education. Barth-Cohen, Barthelemy, Buehler, De Grandi, Gerton, Laicher, Nyawelo, Pantziris, Rudolph. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2)
2019 American Institute of Physics 5
Graduate Students: 14 Female First-Year Students: 6 Total Post Doctorates: 19 Department Address 115 South 1400 East #201 Salt Lake City, UT 84112-0830 Phone: 共801兲 581-6901 Fax: 共801兲 581-6861 E-mail: u6022167@utah.edu Website: http://www.physicsutahedu ADMISSIONS Admission Contact Information Address admission inquiries to: Graduate Coordinator, Department of Physics and Astronomy, 115 South 1400 East #201, Salt Lake City, UT 84112-0830 Phone: 共801兲 581-6861 E-mail: admissions@physics.utahedu Admissions website: http://admissions.utahedu/apply/graduate/ Application deadlines Fall admission: U.S students: January 15 GRE Physics requirements Int’l. students: January 15 Application fee U.S students: $55 Int’l. students: $75 http://www.physicsutahedu Please contact admissions@physics.utahedu for questions about application fee waivers. Admissions information For Fall of 2019: Number enrolled: 14 Admission requirements Bachelor’s degree requirements: A
Bachelor’s degree in Physics is required or a Bachelor’s degree in a closely related field (science or engineering) with a strong physics and math background. Minimum undergraduate GPA: 3.0 GRE requirements The GRE is required. There is no minimum required score. Additional requirements: Bachelor’s degree from an accredited school. Undergraduate preparation assumed: Thornton & Marion, Classical Dynamics; Griffiths, Electricity and Magnetism; Griffiths, Quantum Mechanics; Tipler, Modern Physics. TUITION AND ASSISTANTSHIPS Teaching Assistants, Research Assistants, and Fellowships Number of first-year Teaching Assistants: 14 Average stipend per academic year Teaching Assistant: $25,740 Research Assistant: $25,740 Tuition year 2019 –20: Tuition for in-state residents Full-time students: $3,913 per semester Part-time students: $1,626.95 per credit Tuition for out-of-state residents Full-time students: $12,347 per semester Part-time students: $4,569.21 per credit Tuition
benefits are available to incoming students in good academic standing. Please see the Graduate School website for details. http://gradschoolutahedu Credit hours per semester to be considered full-time: 9 Deferred tuition plan: No Health insurance: varies per semester Other academic fees: Mandatory University fees. Some lab classes have special fees. Academic term: Semester Number of first-year students who received full tuition waivers: 14 FINANCIAL AID Application deadlines Fall admission: U.S students: February 1 Int’l. students: February 1 Loans Loans are available for U.S students Loans are not available for international students. GAPSFAS application required: No FAFSA application required: Yes For further information Address financial aid inquiries to: Financial Aid & Scholarships, 201 S. 1460 E, Salt Lake City, UT 84112 Phone: 共801兲 581-6211 E-mail: financialaid@sa.utahedu 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2)
2019 American Institute of Physics 1 Utah U. of Utah, Phys & Astro Financial aid website: https://financialaid.utahedu/indexphp HOUSING Availability of on-campus housing Single students: Yes Married students: Yes Childcare Assistance: No SPECIAL EQUIPMENT, FACILITIES, OR PROGRAMS For further information Address housing inquiries to: Office of Residential Living, 5 Heritage Center, Salt Lake City, UT 84112-2036. Phone: 共801兲 587-2002 E-mail: info@housing.utahedu Housing aid website: https://housing.utahedu/housing-options/ graduate-housing/ Table AFaculty, Enrollments, and Degrees Granted Number of Degrees Granted 2018–2019 (2003–10) Enrollment Fall 2019 Research Specialty Acoustics Applied Physics Astronomy Astrophysics Atmosphere, Space Physics, Cosmic Rays Biophysics Chemical Physics Condensed Matter Physics Medical, Health Physics Particles and Fields Physics and other Science Education Polymer Physics/Science Relativity & Gravitation Non-specialized
Total Full-time Grad. Stud First-year Grad. Stud 2019–20 Faculty Master’s Doctorate Master’s Terminal Master’s Doctorate – – 6 4 – – – – – – 4 20 –(3) –(3) –(18) – – – – – –(1) –(2) 1 – 4 3 1 1 1 – 7 2 1 –(1) – – – – – 3(4) 1 –(1) 11 9 3 – – – 24 1 3 1 1(6) – 2 – – – –(9) –(1) – – – –(1) – –(5) – 1 – – – – – 1 6 –(2) –(17) – – – – – 2(22) – 52 1 69 2(69) 4 11(46) – – 1 – 69 14 – – – – – – GRADUATE DEGREE REQUIREMENTS Master’s: Thirty graduate semester hours required with a 3.0 grade average in an approved program with satisfactory performance on Departmental Common Exam. Either thesis or non-thesis M.S available Master’s of Instrumentation: 30 graduate semester hours with a 3.0 grade average Nine to fifteen hours will be related to the instrumentation project. No language required. For admission, a
Bachelor’s degree in Engineering, Biology, Chemistry or some related field may be substituted for a degree in Physics. Doctorate: Forty-five graduate semester hours required. Satisfactory performance on Departmental Common Exam or GRE Physics required for admission to Ph.D program (no set minimum) Satisfactory performance (30 average) in an approved course program is required. Qualifying exam, dissertation and dissertation exam required. Teaching experience required, and one of last two years must be in residence. No language requirement Other Degrees: Interdisciplinary studies available in chemical physics, and a variety of other areas by special arrangement. The Ph.D program in Medical Physics is an interdisciplined 2 program in which complex medical and biological systems are studied using physics-based techniques and models. MA requirements are the same as M.S, except proficiency in one foreign language is required. MPhil requirements the same as Ph.D, except no dissertation
required Thesis: Thesis may be written in absentia. The Department maintains extensive facilities for teaching and research. The INSCC Building (Intermountain Network & Scientific Computation Center) houses seven state-of-the-art laser laboratories on the first floor run by several condensed matter and biophysics experimental groups. The research of one group focuses on time-resolved and steady state (cw) investigations of photo-excitations in solids, particularly in semiconductors. A state-of-the-art Ti:sapphire laser gives time resolution of 10 fs. Current efforts in this femtosecond laboratory include pulse amplification with a Nd:YAG laser and the generation of continuum pulses from the near-infrared to the UV. In the picosecond laboratory, two tunable synchronously pumped dye lasers are used for further photo-excitation studies. A 2D streak camera is used to measure the photoluminescence spectrum evolution with picosecond resolution. The laser laboratory has also been used to
study optical non-linear spectra in electronic polymers, solids, and other semiconductors. This includes spectra of two-photon absorption, nonlinear refractive index and third harmonic generation. Light absorption is measured from the UV to the far IR using self-contained commercial instruments (Cary 17 DX and Bruker IFS88, both recently upgraded with modern electronics), operated either by researchers or as a service provided by members of the technical staff. The single molecule spectroscopy group runs a low-temperature laser microscopy laboratory centering around a helium cryostat and a one-box femtosecond laser system with wide (680 nm-1080 nm) automated tunability. An FEI NovaNano Field emission Scanning Electron Microscope with 1.0 nm resolution (16 nm at 1 keV or low vacuum) is widely used for imaging. EDS analysis and e-beam lithography, a Leo 440i SEM is used for images requiring extremely large depth of field as well as for teaching. The Scanning Probe Microscopy Group has
many scanning probe microscopes, including several atomic force microscopes, a scanning tunneling microscope, two near-field optical microscopes, a scanning capacitance microscope and an ultra-high vacuum AFM/STM system. Several research groups within the department operate a variety of commercial and custom built electron and nuclear magnetic magnetic resonance spectrometers including a Bruker Elexsys E580 pulsed electron paramagnetic resonance facility and several electrically and optically detected magnetic resonance facilities. Two new biophysics laboratories are under construction. The first laboratory is located in the INSCC building. The focus of the group is on single molecule studies of molecular motor activity and other protein interactions. Equipment includes (or will shortly include) a high-resolution optical microscope with optical trapping and fluorescence capabilities, as well as auxiliary biological research equipment (e.g low-temperature refrigeration facilities and a
Beckman TL-100 ultracentrifuge) The second biophysics laboratory is under construction in the James Fletcher Building. This laboratory focuses on understanding the mechanism of enveloped virus budding using single molecule, fluorescence spectroscopy and high-resolution live cell imaging technologies A new iMIC digital microscope would be installed that is capable of confocal, TIRF, live cell imaging and fluorescence correlation spectroscopy. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2) 2019 American Institute of Physics United States: Geographic Listing of Graduate Programs In addition, the Department operated a fully equipped OptoElectronic Materials Laboratory for chemical synthesis (including organic semiconductors not commercially available), purification, growth of single crystals, vacuum/controlled atmosphere annealing, sample cutting and polishing, thin-film deposition via thermal evaporation of rf sputtering, as well as a wide
variety of techniques for chemical and physical characterization. A lowtemperature AFM/STM (5 Kelvin) from Omicron Nanotechnology should arrive by the end of 2010 The Astronomy and Astrophysics Group consists of nine fulltime faculty members who are leading research programs at world-class astronomical facilities. As full institutional members of the Third Sloan Digital Sky Survey, the astronomy research group pursues an active research program in the BOSS, APGEE and SEGUE surveys. The astronomy group also pursues observational research using facilities in Chile, Hawaii, and the southwestern United States The astronomy group is a key member of the proposed BigBOSS Observatory, a stage IV baryon acoustic oscillation survey designed to elucidate the formation of galaxies in the early universe, and properties of dark energy and dark matter. The Department operates the 32⬙ Willard L Eccles Observatory on Frisco Peak, Utah, approximately 200 miles from Salt Lake City. This high-altitude
(9600 ft asl) observatory is being developed for IR spectroscopy and imaging surveys. The department operates a pair of 3-meter interferometric telescopes at StarBase Utah, approximately 35 miles west of Salt Lake City. The South Physics observatory on campus houses the department 14⬙ fully automated telescope and several others with CCD photometers, spectrometers and other accessories. The gamma-ray research group pursues astrophysics research with the Very Energetic Radiation Imaging Telescope Array System (VERITAS) located near Tucson, Arizona. Its four 10-m telescopes make stereoscopic measurements of TeV gamma-rays from black holes, supernova remnants, pulsars and active galactic nuclei. Faculty members also pursue cosmic ray and gamma-ray research at the High-Altitude Water Cherenkov (HAWC) observatory, located on Sierra Negra, Mexico. The University of Utah is the host institution for the Telescope Array (TA) and Telescope Array LowEnergy Extension (TALE) projects, located 125
miles from Salt Lake City in the west-central Utah desert. Its ground array has more than 500 scintillation detectors covering 750 square kilometers, accompanied by three air-fluorescence detectors. Both TA and TALE are designed to study the highest-energy particles known, and both experiments make extensive use of the airfluorescence technique first successfully employed at Utah by the Fly’s Eye Experiment (1976-1991) here at University of Utah, Degree programs in astronomy are currently offered. The department has a robust wired and wireless local network designed with growth and flexibility in mind. The local network is integrated into a cutting edge university network dedicated to providing premier Internet services. Core user and computational services are provided by a dozen Sun Fire and Sun Enterprise servers accompanied by several powerful Linux and Windows servers. Data storage and backup are provided by a growing storage area network (SAN) currently totaling roughly one
terabyte of disk and ten terabytes of tape storage. We provide access to a large suite of programs for departmental use including Maple, Matlab, Mathematica, LabVIEW, Microsoft software and educational software. In addition, the University provides deeply discounted prices on hundreds of software titles through their office of software licensing. There are numerous open access terminals, desktops and printers in the department library, study areas, and the five open computer laboratories. Individual workstations are a mixture of Windows, Linux, Macintosh and UNIX. The department also supports several research groups that have various computational computers and multiple terabyte size data arrays, usually based on UNIX type architectures. Research groups also Utah have access to large computational clusters through the University’s Center for High-Performance Computing (CHPC), totaling well over 1500 processors in various clusters. Research is also supported by a professional
Research Machine Shop, as well as a Student Shop, the latter open to all faculty, staff, and students who have completed a training course. Both shops are equipped with state-of-the-art CNC lathes and mills, as well as cutting, drilling and welding equipment. The wellequipped wood shop allows fabrication of non-magnetic supports and shipping containers. The ample stockroom saves time and effort in procuring both common and hard-to-find materials and supplies. Table BSeparately Budgeted Research Expenditures by Source of Support Source of Support Departmental Research Federal government State/local government Non-profit organizations Business and industry Other $5,724,000 Total $6,067,000 Physics-related Research Outside Department $50,000 $117,000 $176,000 Table CSeparately Budgeted Research Expenditures by Research Specialty Research Specialty No. of Grants Expenditures ($) Applied Physics Astronomy Astrophysics Atmosphere, Space Physics, Cosmic Rays Biophysics
Computational Physics Computer Science Condensed Matter Physics Cosmology & String Theory High Energy Physics Nano Science and Technology Nonlinear Dynamics and Complex Systems Theoretical Physics 3 17 8 7 6 1 2 15 1 7 5 1 1 $141,000 $1,275,000 $564,000 $1,639,000 $303,000 $30,000 $266,000 $1,236,000 $117,000 $131,000 $169,000 $105,000 $91,000 Total 74 $6,067,000 FACULTY Distinguished University Professor Sokolsky, Pierre V., PhD, University of Illinois, 1973 Dean, College of Science. Astrophysics, Atmosphere, Space Physics, Cosmic Rays, Plasma and Fusion. Cosmic rays; high-energy physics. Vardeny, Zeev V., PhD, Technion, Israel, 1979 Atomic, Molecular, & Optical Physics, Biophysics, Condensed Matter Physics, Energy Sources & Environment, Materials Science, Metallurgy, Nano Science and Technology, Optics Experimental condensed matter. Wu, Yong-Shi, Ph.D, Chinese Academy of Sciences, 1965 Astrophysics, Condensed Matter Physics, Particles and Fields High-energy theory.
Professor Ailion, David C., PhD, University of Illinois, 1964 Atomic, Molecular, & Optical Physics, Biophysics, Condensed Matter Physics, Medical, Health Physics. Experimental condensed matter. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2) 2019 American Institute of Physics 3 Utah Boehme, Christoph, Ph.D, University of Marburg, 2003 Associate Chair Applied Physics, Chemical Physics, Condensed Matter Physics, Materials Science, Metallurgy, Nano Science and Technology. Experimental Condensed Matter Physics Bromley, Benjamin C., PhD, Dartmouth College, 1994 Astronomy, Astrophysics, Relativity & Gravitation Theoretical astrophysics Cassiday, George L., PhD, Cornell University, 1968 Astronomy, Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays. Dawson, Kyle, Ph.D, University of California, Berkeley, 2004 Astronomy and astrophysics. Astronomy, Astrophysics DeFord, John W., PhD, University of Illinois, 1962 Physics and
other Science Education. Physics education DeTar, Carleton E., PhD, University of California, Berkeley, 1970. Astrophysics, Particles and Fields Elementary particle theory. (ORCID: 0000-0002-0216-6771) Gondolo, Paolo, Ph.D, University of California, Los Angeles, 1991. Astronomy, Astrophysics, Particles and Fields Cosmology; dark matter Harris, Frank E., PhD, University of California, Berkeley, 1954. Chemical Physics Chemical physics Jui, Charles C., PhD, Stanford University, 1992 Atmosphere, Space Physics, Cosmic Rays, History & Philosophy of Physics/Science, Plasma and Fusion. Cosmic rays Kieda, David B., PhD, University of Pennsylvania, 1989 Department Chair Astronomy, Astrophysics, Atmosphere, Space Physics, Cosmic Rays. Experimental high-energy astrophysics Mishchenko, Eugene, Ph.D, Landau Institute for Theoretical Physics, Moscow, 1998. Condensed Matter Physics Theoretical condensed matter Raikh, Mikhail, Ph.D, Ioffe Physico Technical Institute, 1981 Condensed Matter Physics.
Theoretical condensed matter Springer, Wayne R., PhD, University of Maryland, 1991 Astronomy, Astrophysics, Atmosphere, Space Physics, Cosmic Rays, Computer Science, Particles and Fields, Plasma and Fusion. Experimental astrophysics Starykh, Oleg, Ph.D, Russian Academy of Science, 1991 Condensed Matter Physics Theoretical condensed matter Symko, Orest G., PhD, University of Oxford, 1967 Acoustics, Low Temperature Physics. Thermoacoustics Williams, Clayton C., PhD, Stanford University, 1984 Atomic, Molecular, & Optical Physics, Condensed Matter Physics, Electrical Engineering, Nano Science and Technology, Optics. Experimental condensed matter Associate Professor Belz, John, Ph.D, Temple University, 1993 Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays Bergman, Douglas, Ph.D, Yale University, 1997 Astrophysics, Atmosphere, Space Physics, Cosmic Rays, High Energy Physics. Cosmic rays; high-energy physics Deemyad, Shanti, Ph.D, Washington University, St Louis, 2004.
Condensed Matter Physics, Low Temperature Physics Experimental condensed matter. Gerton, Jordan, Ph.D, Rice University, 2001 Director for the Center of Science and Math Education. Biophysics, Condensed Matter Physics, Medical, Health Physics, Nano Science and Technology, Optics Experimental condensed matter LeBohec, Stephan, Ph.D, Paris XI University, 1992 Astronomy, Astrophysics, Particles and Fields. Experimental high-energy astrophysics. Rogachev, Andrey, Ph.D, Nagoya University, 2000 Condensed Matter Physics, Nano Science and Technology, Optics. Experimental condensed matter physics 4 U. of Utah, Phys & Astro Saffarian, Saveez, Ph.D, Washington University, St Louis, 2003. Biophysics Biophysics Sandick, Pearl, Ph.D, University of Minnesota, 2008 Astrophysics, Particles and Fields Theoretical high energy astrophysics Seth, Anil, Ph.D, University of Washington, 2006 Astronomy, Astrophysics. Astronomy and astrophysics Zheng, Zheng, Ph.D, Ohio State University, 2004 Astronomy,
Astrophysics. Astronomy and astrophysics Assistant Professor Barthelemy, Ramon, Ph.D, Western Michigan University, 2014 Physics and other Science Education. Physics Education Research Deshpande, Vikram V., PhD, California Institute of Technology, 2008 Applied Physics, Condensed Matter Physics Synthesis, nanofabrication, and combined electrical, mechanical, and optical measurements of ultra-high-quality graphene and carbon nanotube devices. Li, Yan (Sarah), Ph.D, University of California, Riverside, 2010 Condensed Matter Physics, Materials Science, Metallurgy. Spin noise spectroscopy of electrons and holes in semiconductor quantum dots. Vershinin, Michael, Ph.D, University of Illinois, 2004 Biophysics Biophysics Wik, Daniel R., PhD, University of Virginia, 2010 Astronomy, Astrophysics. Astronomy and astrophysics Zasowski, Gail, Ph.D, University of Virginia, 2012 Astronomy, Astrophysics. Astronomy and astrophysics Zhao, Yue, Ph.D, Rutgers University, 2012 High Energy Physics, Theoretical
Physics Emeritus Rudolph, Sidney, Ph.D, University of Utah, 1986 Physics education Thomson, Gordon B., PhD, Harvard University, 1972 Jack W Keuffel Chair. Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays Professor Emeritus Efros, Alexei L., PhD, Ioffe Physico Technical Institute, 1972 Condensed Matter Physics. Theoretical condensed matter Kuchar, Karel V., PhD, Charles University in Prague, 1966 Relativity & Gravitation. Relativity Mattis, Daniel C., PhD, University of Illinois, 1957 Condensed Matter Physics. Theoretical condensed matter Ohlsen, William D., PhD, Cornell University, 1961 Condensed Matter Physics. Experimental condensed matter Price, Richard, Ph.D, California Institute of Technology, 1971 Relativity & Gravitation. Sutherland, T. Bill, PhD, Stony Brook University, 1968 Condensed Matter Physics Theoretical condensed matter Taylor, P. Craig, PhD, Brown University, 1969 Condensed Matter Physics. Experimental condensed matter Williams, George A., PhD,
University of Illinois, 1956 Condensed Matter Physics Experimental condensed matter Research Professor Lupton, John M., PhD, University of Durham, London, 2001 Atomic, Molecular, & Optical Physics, Condensed Matter Physics, Materials Science, Metallurgy, Nano Science and Technology. Experimental condensed matter Matthews, John N., PhD, Rutgers University, 1995 Astrophysics, Atmosphere, Space Physics, Cosmic Rays Cosmic rays. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2) 2019 American Institute of Physics United States: Geographic Listing of Graduate Programs Research Associate Professor AbuZayyad, Tareq, Ph.D, University of Utah, 2000 Astrophysics, Atmosphere, Space Physics, Cosmic Rays, Plasma and Fusion. Cosmic rays Brownstein, Joel R., PhD, University of Waterloo, 2009 Astronomy Galaxy evolution; BOSS; lensing Research Assistant Professor Abbasi, Rasha, Ph.D, University of Utah, 2007 Astrophysics, Cosmology & String Theory,
High Energy Physics. Abeysekara,Udara,Ph.D,MichiganStateUniversity,2014Astrophysics, Atmosphere, Space Physics, Cosmic Rays, High Energy Physics Lafalce, Evan, Ph.D, University of South Florida, 2014 Condensed Matter Physics, Materials Science, Metallurgy, Optics, Solid State Physics Liu, Haoliang, Ph.D, Chinese Academy of Sciences, 2012 Condensed Matter Physics, Materials Science, Metallurgy, Optics, Solid State Physics Malissa, Hans, Ph.D, Johannes Kepler University Linz, 2007 Condensed Matter Physics. Teaching Professor Ingebretsen, Richard J., PhD, University of Utah, 1989 MD Medical, Health Physics, Physics and other Science Education. Physics education, medical physics Laicher, Gernot, Ph.D, University of Utah, 1994 Atomic, Molecular, & Optical Physics, Condensed Matter Physics, Medical, Health Physics, Physics and other Science Education Experimental condensed matter Teaching Associate Professor Buehler, Tabitha C., PhD, Brigham Young University, 2011 Astronomy, Physics and
other Science Education. Astronomy Nyawelo, Tino S., PhD, National Institute for Nuclear Physics and High Energy Physics, 2004. Astrophysics, High Energy Physics, Particles and Fields, Theoretical Physics. Teaching education. Pantziris, Anthony, Ph.D, Brown University, 1987 Physics and other Science Education. Physics education Stone, Christopher, Ph.D, University of Utah, 1992 Physics and other Science Education. Physics education Teaching Assistant Professor De Grandi, Claudia, Ph.D, Boston University, 2011 Condensed Matter Physics, Physics and other Science Education, Solid State Physics, Theoretical Physics, Other. Physics Education Research. Adjunct Faculty Barth-Cohen, Lauren, Ph.D, University of California, Berkeley, 2012. Physics and other Science Education Blair, Steven, Ph.D, University of Colorado Boulder, 1998 Electrical Engineering, Nano Science and Technology. Nanophotonics Bolton, Adam, Ph.D, MIT, 2005 Astronomy Chubukov, Andrey, Ph.D, Moscow State University, 1985
Condensed Matter Physics. Condensed matter Ehrenfreund, Eitan, Ph.D, Hebrew University, 1970 Condensed Matter Physics Experimental condensed matter Facelli, Julio C., PhD, University of Buenos Aires, Argentina, 1981. Atomic, Molecular, & Optical Physics, Computer Science Nuclear magnetic resonance Utah Huentemeyer, Petra, Ph.D, University of Hamburg, 2001 Astrophysics High-energy astrophysics Jeong, Eun-Kee, Ph.D, Washington University, St Louis, 1991 Medical, Health Physics. MRI Johnson, Christopher R., PhD, University of Utah, 1989 Applied Mathematics, Computer Science Physics Liu, Feng, Ph.D, Virginia Commonwealth University, 1990 Chemical Physics, Materials Science, Metallurgy. McCamey, Dane, Ph.D, University of New South Wales, Sydney, 2007 Condensed Matter Physics Experimental condensed matter Miller, Joel, Ph.D, UCLA, 1971 Chemical Physics Parker, Dennis, Ph.D, University of Utah, 1978 Biophysics, Medical, Health Physics. Medical biophysics; computing Saam, Brian T., PhD,
Princeton University, 1995 Associate Dean, College of Science. Atomic, Molecular, & Optical Physics, Biophysics, Condensed Matter Physics, Medical, Health Physics. Experimental atomic/molecular Scarpulla, Michael, Ph.D, University of California, Berkeley, 2006. Electrical Engineering, Materials Science, Metallurgy Shahbazyan, Tigran, Ph.D, University of Utah, 1995 Condensed Matter Physics Theoretical condensed matter Sun, Dali, Ph.D, Institute of Physics, Chinese Academy of Sciences, 2009 Condensed Matter Physics DEPARTMENTAL RESEARCH SPECIALTIES AND STAFF Theoretical Astronomy. Bromley, Dawson, Gondolo, Pantziris, Seth, Springer, Wik, Zasowski, Zheng. Astrophysics. Belz, Bergman, Bromley, Brownstein, Dawson, DeTar, Gondolo, Pantziris, Price, Sandick, Seth, Wik, Zheng. Chemical Physics. Harris Condensed Matter Physics. Chubukov, Efros, LeBohec, Mishchenko, Raikh, Starykh, Sutherland, Wu Relativity & Gravitation. Bromley, Price Experimental Astronomy. Dawson, Kieda, Seth
Astrophysics. AbuZayyad, Belz, Bergman, Cassiday, Jui, Kieda, LeBohec, Matthews, Seth, Sokolsky, Springer. Biophysics. Gerton, Saffarian, Vershinin Condensed Matter Physics. Ailion, Boehme, Deemyad, Deshpande, Gerton, Jeong, Laicher, Feng Liu, Rogachev, Saam, Sun, Taylor, Vardeny, Clayton Williams. Low Temperature Physics. Boehme, Deemyad, Deshpande, Li, Vardeny. Materials Science, Metallurgy. Boehme, Feng Liu, Sun, Vardeny, Clayton Williams. Medical, Health Physics. Ailion, Gerton, Ingebretsen, Jeong, Laicher, Parker, Saam. Nano Science and Technology. Boehme, Deemyad, Deshpande, Gerton, Rogachev, Scarpulla, Sun, Taylor, Vardeny, Clayton Williams. Optics. Boehme, Gerton, Rogachev, Saam, Sun, Vardeny, Clayton Williams Particles and Fields. Bergman, Sokolsky, Springer Physics and other Science Education. Barth-Cohen, Barthelemy, Buehler, De Grandi, Gerton, Laicher, Nyawelo, Pantziris, Rudolph. 2020 Graduate Programs in Physics, Astronomy, and Related Fields (ISBN: 978-0-7354-1875-2)
2019 American Institute of Physics 5
