{"id":57,"date":"2015-03-03T20:36:57","date_gmt":"2015-03-03T20:36:57","guid":{"rendered":"http:\/\/physics.uncg.edu\/new\/?page_id=57"},"modified":"2024-04-24T15:43:42","modified_gmt":"2024-04-24T19:43:42","slug":"faculty","status":"publish","type":"page","link":"https:\/\/physics.uncg.edu\/people\/faculty\/","title":{"rendered":"Faculty"},"content":{"rendered":"

\"Pratap2\"<\/p>\n

Dr. Promod Pratap<\/h3>\n

Department Head, Associate Professor<\/em><\/strong><\/p>\n

prpratap@uncg.edu<\/a>
\nPetty 322
\nWebsite<\/a>
\nMS: Indian Institute of Technology, Bombay; PhD: Syracuse University<\/p>\n

Over the past 30 years, Dr. Pratap\u2019s research has focused on the energetics of membrane ion transporters \u2013 specifically, the sodium and potassium pump. This membrane protein converts chemical energy into electrochemical potential energy stored in transmembrane gradients of sodium and potassium. In a human at rest, this pump uses approximately 25% of the body\u2019s total energy budget. The pump is also the target of digitalis, a drug administered to increase the strength of heart muscle contractions.  Pratap uses various spectroscopic techniques (ensemble fluorescence and FTIR spectroscopy, and single-molecule fluorescence fluctuations) to examine various steps in the pump\u2019s reaction cycle with the overall goal of determining the pump\u2019s energy conversion efficiency.<\/p>\n

\n

\"\"<\/p>\n

Dr. Alicia Aarnio<\/h3>\n

Assistant Professor<\/em><\/strong><\/p>\n

anaarnio@uncg.edu<\/a>
\nPetty 332
\nWebsite<\/a>
\nBA: Smith College; PhD: Vanderbilt University<\/p>\n

Prof. Aarnio is interested in solar and stellar magnetic fields. She studies how magnetic fields facilitate the flux of mass and energy within a star-disk system and how they drive solar and stellar activity, outflows, and accretion. Aarnio uses large data sets and the solar-stellar connection to understand stars like the Sun when it was a few million years old and how it evolved to be the star we know now. Her results from stellar observations and models inform possible solar extremes that are of great concern for the denizens of 1 au. Prof. Aarnio observes, taking photometric and spectroscopic data, and models, running radiative transfer and magnetohydrodynamic convection codes to understand the data she gathers.<\/p>\n

\n

\"Beatty\"<\/p>\n

Dr. Ian Beatty<\/h3>\n

Associate Professor and Director of Undergraduate Studies<\/em><\/strong><\/p>\n

idbeatty@uncg.edu<\/a>
\nPetty 328
\nWebsite<\/a>
\nBS & PhD: University of Massachusetts<\/p>\n

Dr. Beatty’s main interest is in Physics Education Research. This research ranges from cognitive modeling (“How do we gauge and represent the physics knowledge in a student’s or expert’s head?”) through statistical methods (“How do we extract reliable measures of students’ affective traits from questionnaire data?”) to the engineering and evaluation of curricula and learning environments (“How do we engage students more deeply and authentically in physics learning, taking hints from how good video games engage players in exploring confusing environments and mastering hard skills?”). He also wants to integrate computational methods and simulation more deeply into the physics curriculum.<\/p>\n

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\"\"Dr. Ron Belmont<\/h3>\n

Assistant Professor<\/em><\/strong><\/p>\n

rjbelmon@uncg.edu<\/a>
\nPetty 331
\nWebsite<\/a>
\nBS: Seton Hall University; MS & PhD: Vanderbilt University<\/p>\n

Ron Belmont is an internationally recognized expert in the physics of ultrarelativistic nucleus-nucleus collisions.  By colliding heavy nuclei at relativistic speeds, we create a new phase of matter called the quark-gluon plasma, which is believed to have existed in the very early universe, roughly a few microseconds after the big bang.  Ron is a member of the PHENIX Collaboration, where he is a physics working group convener and a member of the executive council and institutional board.  Ron is also a member of the sPHENIX Collaboration, where he is an institutional board member and one of the experts on the hadronic calorimeter subsystem.<\/p>\n

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\"\"<\/p>\n

Dr. Alan (AJ) Covell<\/h3>\n

Lecturer<\/em><\/strong><\/p>\n

adcovell@uncg.edu<\/a>
\nPetty 333
\nBA: University of North Carolina Greensboro; PhD: Joint School of Nanoscience & Nanoengineering<\/p>\n

Dr. Covell is interested in solid state battery separators for multivalent ion battery applications and is currently using first principle calculations to investigate ionic conductivity in proposed solid state materials. He is also interested in curriculum development and gamification, where he is developing\/adapting course materials for online platforms and delivery.<\/p>\n

\n

\"hellen\"<\/p>\n

Dr. Edward Hellen<\/h3>\n

Professor<\/em><\/strong><\/p>\n

ehhellen@uncg.edu<\/a>
\nPetty 318
\nBS: University of Wisconsin; PhD: University of Michigan<\/p>\n

\"ORCIDhttps:\/\/orcid.org\/0000-0001-5060-7220<\/a><\/div>\n
Scopus Author Info<\/a><\/div>\n

Dr. Hellen is interested in Nonlinear Dynamics and emergent behavior, most recently using numerical and electrical models to study collective modes and multi-stability in coupled synthetic genetic ring oscillators. For numerical simulations he formerly used Fortran, then MathCad, then Matlab, but now mostly uses Python and XPPAUT on both Windows and Linux, and AUTO-07p on Linux.<\/p>\n

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\"\"<\/p>\n

Dr. Anatoly Miroshnichenko<\/h3>\n

Professor and Director of Three College Observatory<\/em><\/strong><\/p>\n

a_mirosh@uncg.edu<\/a>
\nPetty 335
\nWebsite<\/a>
\nMS: Saint-Petersburg State University; PhD: Pulkovo Astronomical Observatory of the Russian Academy of Sciences; Second PhD: Special Astrophysical Observatory of the Russian Academy of Sciences<\/p>\n

Dr. Miroshnichenko’s research interests include studies of hot stars with large amounts of circumstellar material, such as Be stars, objects with the B[e] phenomenon, young stars, binary systems, spectroscopy and photometry (methods of observation) , and radiation transfer (method of computational analysis).<\/p>\n

\n

 <\/p>\n","protected":false},"excerpt":{"rendered":"

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