Detector development and testing
Science & Capabilities
Neutrons are a precious and irreplaceable scientific resource. They follow the quantum mechanical spin of the electrons in solids, penetrate sample chambers to look at materials under extreme conditions, and provide unique information about the building blocks of life. Through ongoing consultation with ORNL staff, users, expert advisory committees, and workshop participants from the broader research community, science priority areas have been identified with research challenges and opportunities that can be best addressed by the unique and vital information provided by neutron scattering.
High Flux Isotope Reactor
-
-
Proteins and complexes, pharmaceuticals, biomaterials
-
High-resolution inelastic scattering at cold neutron energies
-
Small unit-cell nuclear & magnetic structural studies
-
Small unit-cell nuclear & magnetic structural studies
-
Strain, texture, and phase mapping in engineering materials
-
Atomic resolution structures in biology, chemistry and complex materials
-
Transmission imaging of natural and engineered materials
-
Magnetic and crystal structure studies and phase analysis
-
Polarized neutron studies of magnetic materials, low-energy excitations, structural transitions
-
Medium- and high-resolution inelastic scattering at thermal energies
-
Low-energy excitations, magnetism, structural transitions
-
Diffuse-scattering studies of single crystals and time-resolved phase transitions
Spallation Neutron Source
-
Atomic-level dynamics in materials science, chemistry, condensed matter sciences
-
Dynamics of macromolecules, constrained molecular systems, polymers, biology, chemistry, materials science
-
Condensed matter physics, materials science, chemistry, biology, environmental science
-
Detailed studies of disorder in crystalline materials
-
Polymers, soft materials and colloidal systems, materials science, life science, earth and environmental sciences
-
Fundamental properties of neutrons
-
Measures excitations in small single-crystals with optional polarization analysis
-
Interfaces in complex fluids, polymers, chemistry
-
Condensed matter, materials science and magnetism of interfaces
-
Atomic level structures of proteins, macromolecules and DNA
-
Liquids, solutions, glasses, polymers, nanocrystalline and partially ordered complex materials
-
High-resolution dynamics of slow processes, polymers, biological macromolecules
-
Atomic-level structures in chemistry, materials science, and condensed matter physics including magnetic structure
-
Dynamics of complex fluids, quantum fluids, magnetism, condensed matter, materials science
-
Materials science, geology, earth and environmental sciences
-
Atomic-level structures in chemistry, biology, earth science, materials science, condensed matter physics
-
Life sciences, polymers, materials science, earth and environmental sciences
-
Energy selective imaging in materials science, engineering, materials processing, environmental sciences and biology
-
Vibrational dynamics in molecular systems, chemistry
-
Mechanical behaviors, materials science, materials processing
