Experimental Research

Professor Di Bartolo's Group – Solid-state spectroscopy of laser-type materials, luminescence spectroscopy, flash photolysis and molecular spectroscopy, photoacoustics, femtospectroscopy, summer schools in atomic and molecular spectroscopy. Professor Di Bartolo; program sponsored by NASA and NATO.

Professor Burch's Group Laboratory for Assembly and Spectroscopy of Emergence (LASE) develops new methods to probe and manipulate materials, with a focus on novel states of mater (Topological Insulators, Majorana fermions, unconventional superconductors) and devices for clean energy generation (Water Splitting) and efficiency (Thermoelectrics). They are developing a one of a kind clean-room in a glovebox to produce the highest quality two-dimensional atomic crystals and interfaces. Materials are probed using a combination of transport, Infrared, Terahertz and Raman micro-spectroscopies.

Professor Graf's Group – Low temperature condensed matter physics; materials in strong magnetic fields, nanostructured superconductors, heavy fermion superconductors, thermoelectric materials. Professor Graf; program supported through Petroleum Research Fund and National Science Foundation.

Professor Naughton's Group – Nanoscale integrated science and low temperature condensed matter physics; bioelectric, neuroelectric, neuromagnetic sensors and actuators; nanophotonics and plasmonics; photovoltaics; low dimensional electron systems; magnetometry techniques in large static and pulsed magnetic fields. Program sponsored by the National Science Foundation, National Institutes of Health, Department of Energy, W.M. Keck Foundation.

Professor Opeil's Group – Resonant ultrasound and Barkhausen noise in shape memory alloys, such as Ni2MnGa and AuZn.

Professor Tafti's Group – Experimental condensed matter physics, topological order, superconductivity, quantum phase transitions, spin liquids, low dimensional magnets, material synthesis, single crystal growth,  electrical, thermal, and thermo-electric transport measurements, high pressure and high field experiments.

Professor Zeljkovic's Group – Atomic-scale spectroscopic characterization of quantum materials (topological insulators, high-temperature superconductors, transition metal dichalcogenides) using scanning tunneling microscopy (STM); Layer-by-layer material synthesis utilizing molecular beam epitaxy (MBE); Manipulation of electronic properties via strain, electrostatic gating and magnetic field.