Northern Illinois University
Department of Physics
College of Liberal Arts and Sciences

Faculty Research Programs

Dennis E. Brown

Dennis E. Brown's group studies the condensed matter physics of magnetic systems using Mossbauer spectroscopy, nuclear resonant x-ray scattering, and x-ray crystallography as as function of temperature, magnetic field, and pressure. Areas of particular interest to Professor Brown are spintronics, magnetoresistance, magnetocaloric effects, phonon density of states, and magnetic and pressure-induced structural and electronic phase transitions.

Omar Chmaissem

Omar Chmaissem's scientific background and research interests involve detailed and precise characterizations of the structures and properties of advanced functional oxides. Neutron powder diffraction and high resolution x-rays are the primary tools of interest that helped determine the exact oxygen stoichiometry and structures of a wide variety of exotic copper based superconductors, colossal Magnetoresistive manganites, magnetic ruthenates, and heavy fermions.

Additionally, over the past few years, Omar Chmaissem established a new laboratory for the controlled growth and synthesis of oxide-based thin films, multilayers, and nanoparticles using Laser-Assisted Molecular Beam Epitaxy (LMBE). Characterization of the films and artificial heterostructures is performed using a state-of-the art x-ray microdiffraction and advanced x-ray spectroscopies at the Advanced Photon Source of Argonne National Laboratory.

Andreas Glatz

The research area of Glatz' group is theoretical and computational condensed matter physics and materials science, focused on dynamical processes in quantum and nano-materials. Research interests include time dependent Ginzburg-Landau equations for multi-physics systems, fluctuation phenomena in superconductors, non-linear dynamics in non-equilibrium systems including active materials, quantum macrophysics and coherent quantum devices with applications in quantum information sciences, and dynamics of disordered elastic systems.

The computational research on the optimization and design of superconductors for energy applications using large-scale computational algorithms and tools is featured on the SciDAC project webpage optimizing superconductor transport properties through large-scale simulation.

Yasuo Ito

Yasuo Ito's group studies relationship between structures and their properties of bulk and interfaces of nanostructures in atomic scale, using transmission electron microscopy and its related spectroscopy techniques electron energy-loss spectroscopy and x-ray emission spectroscopy. Recent interests are on nanoscale anisotropy found in spin-electronic materials and structures, superconducting nanowires and ribbons, and novel ion battery materials.

Laurence Lurio

Laurence Lurio's group studies structural and dynamic properties of fluids and complex materials primarily using x-ray and light scattering. Recent work includes studies of the structure and dynamics of thin polymer films and biomembranes, studies of the properties of liquid helium in confined geometries, and measurements of critical phenomena in binary fluid mixtures.

Michel van Veenendaal

Michel van Veenendaal studies condensed-matter theory and in particular the interaction between x-rays and solids. The focus is on strongly correlated systems such as transition-metal and rare-earth compounds. The research involves, e.g. x-ray dichroism and inelastic x-ray scattering, magnetism, orbital and charge excitations. Methods include exact diagonalization of small clusters, many-body techniques, and analytical methods to study key features of spectroscopy.

Roland Winkler

The theoretical research in Roland Winkler's group is centered around spin-dependent phenomena in solid state systems. Questions of interest include spin-orbit coupling, spin dynamics, and transport and optics in systems with reduced dimensionality. Numerical studies are complemented by simple and transparent analytical models that capture the important physics. Computer-algebra systems represent an important tool for this work.

Zhili Xiao

Zhili Xiao's group currently works in the field of nanoscience, with emphasis on superconductivity in confined geometries. Various synthesis approaches have been developed or used to fabricate superconductors in the forms of nanowires, nanoribbons, shape-controlled nanocrystals, and antidot arrays (films containing arrays of nanoscale holes). Size and shape effect on superconductivity and magnetic flux pinning and dynamics have been the research focus. Potential applications of nanomaterials are also explored, with current interest on development of robust hydrogen gas sensors with short response times and high sensitivities.