Doug Abernathy |
Wide Angular-Range Chopper Spectrometer (ARCS). Atomic-scale dynamics at thermal and epithermal energies |
Ke An |
Engineering Materials Diffractometer (VULCAN). Residual stress, deformation mechanism of materials, phase transitions/transformation, and in situ/operando neutron diffraction in material systems (e.g., working batteries). |
John Ankner |
Liquids Reflectometer (LR). Density profiles normal to the surface at liquid surfaces and liquid interfaces |
Bryan Chakoumakos |
Nuclear and magnetic crystal structure systematics and structure-property relationships among inorganic materials, powder and single-crystal neutron and x-ray diffraction methods |
Leighton Coates |
Macromolecular Neutron Diffractometer (MaNDi). Protein crystallography, biological structure and function |
Sarah M. Cousineau |
Accelerator physics: beam transport and beam loss in accumulator rings and associated transport lines, collective effects in high-intensity beams, high-power beam collimation |
Clarina Dela Cruz |
High-Resolution Powder Diffractometer (HB-2A). Magnetic and structural phase transitions, multiferroics, superconductors |
Changwoo Do |
Dynamics and spatial distribution of ions in polyelectrolyte systems primarily using small-angle neutron scattering and neutron spin-echo techniques. Self-assembly of nanoparticles and block copolymer systems and their structural investigation |
Georg Ehlers |
Cold Neutron Chopper Spectrometer (CNCS). Inelastic neutron scattering, magnetism |
Jaime Fernandez-Baca |
Magnetic ordering and spin dynamics of strongly correlated electron materials such as magnetoresistive oxides, multiferroics, and related alloys using neutron scattering techniques |
Ovidiu Garlea |
High-Resolution Powder Diffractometer (HB2A). Magnetic and structural phase transitions, orbital ordering, low-dimensional quantum magnetism |
Garrett Granroth |
Fine-Resolution Fermi Chopper Spectrometer (SEQUOIA). Atomic-scale dynamics in the 0 – 2eV range, magnetic materials, quantum magnetism, disordered magnets |
William T. Heller |
Extended Q-Range Small-Angle Neutron Scattering Diffractometer (EQ-SANS). Large-scale structures in a variety of materials, including biological molecules, polymers, colloidal systems |
Ken Herwig |
Atomic scale dynamics, diffusive and vibrational motions of adsorbed molecules or large molecules |
Christina Hoffmann |
Single Crystal Diffractometer (TOPAZ). Atomic structure in moderate-unit-cell single crystal samples |
Ashfia Huq |
Powder Diffractometer (POWGEN). Atomic structure analysis of powder crystalline and non crystalline materials using the Rietveld and PDF method |
John Katsaras |
Soft condensed matter physics: structural determination of biologically relevant systems and their interactions through the use of appropriate scattering techniques |
Alexander Kolesnikov |
Condensed matter physics: lattice dynamics, phase transitions, and disordered materials. Materials chemistry: energy materials |
Mark Lumsden |
Neutron spectroscopy, magnetic materials, low-dimensional quantum magnetism |
Eugene Mamontov |
Backscattering Spectrometer (BASIS). Atomic scale dynamics, diffusive motions of molecules on surfaces and in confinement |
Flora Meilleur |
Image-Plate Single-Crystal Diffractometer (IMAGINE). Biophysical chemistry of proteins, focusing on structure and function relationships, protein crystallography |
Yuri Melnichenko |
Small angle neutron scattering; soft condensed matter; phase transitions and critical phenomena in liquid and supercritical polymer solutions, gels and blends; dynamics and structure of fluids confined in small pores |
Herb Mook |
Magnetism and lattice dynamics of highly correlated electronic systems such as heavy fermion materials and the high temperature superconductors |
Dean Myles |
Center for Structural Molecular Biology, biological structure & function, bio-SANS, bio-mimetics, protein crystallography, deuterium labeling |
Steve Nagler |
Inelastic neutron scattering and diffraction, novel materials, correlated electron systems, low dimensional and quantum magnetism, molecular magnets, phase transitions |
Jörg Neuefeind |
Disordered Materials Diffractometer (NOMAD). Atomic structure of liquids and glasses, neutron and hard x-ray scattering. |
Michael Ohl |
Neutron Spin Echo Spectrometer (NSE). Inelastic neutron scattering, dynamics in glasses and disordered materials |
Andrew Payzant |
Residual stress mapping in engineering and research samples, micro residual stresses in polycrystalline composites, crystal structure and in situ studies |
Andrey Podlesnyajk |
Cold Neutron Chopper Spectrometer (CNCS). Inelastic neutron scattering, magnetism, correlated electronic systems, lattice and spin excitations |
Lee Robertson |
Local atomic arrangements in alloys, martensitic phase transitions, lattice dynamics, structure and dynamics of liquids and amorphous materials |
António M. dos Santos |
Magnetism, Inorganic chemistry, High-pressure environments, Phase transitions, Geochemistry and geological materials |
Greg Smith |
Neutron reflectometry, soft condensed matter, thin films and interfaces, biomimetic materials |
Chris Tulk |
Spallation Neutrons and Pressure Diffractometer (SNAP). Atomic structure at pressures up to 100 Gp; Small-angle scattering from liquids and glasses, and analysis of disorder in crystalline materials |
Volker Urban |
Small angle neutron and x-ray scattering, macromolecular structures, soft condensed matter and biological systems |
Xiaoping Wang |
Single Crystal Diffractometer (TOPAZ, BL-12), Chemical Crystallography, Structure and Bonding in Molecular Compounds, Energy Storage Materials. |
George Wignall |
Small angle neutron scattering, macromolecular structures in the condensed and fluid states, polymers and polymers solutions |
Barry Winn |
Neutron triple axis spectroscopy, shape memory alloys |
Feng Ye |
Phase transition, Magnetic ordering and spin dynamics of strongly correlated electron materials such as magnetoresistive oxides, frustrated system and multiferroics materials using neutron scattering techniques |