Neutron scattering is a technology that enables researchers to 'see' inside matter.

Neutron scattering can also yield information on pair correlations as well.

"The advantage of neutron scattering is that it can be used to study real systems," said Yushin.

Neutron scattering is a prime tool for the investigation of magnetism in materials.

Expertise in neutron scattering is desirable, but not essential.

Neutron scattering is the prime tool for determining magnetic order in solids.

Computer analyses of the neutron scatterings then determine the structures of the materials.

Neutron Scattering is the only method that directly determines the internal structure and dynamics of magnetic materials.

Neutron scattering is considered one of the best ways to probe atoms in order to better understand the structure of materials.

Neutron scattering should help us clarify existing controversies.

Neutron scattering is a powerful technique that is used to explore the structure of matter at the atomic scale.

Quasielastic neutron scattering indicates that the surface structure is not a rotator phase.

Neutron scattering is a powerful tool to explore the deep molecular structure of virtually any type of material.

"Neutron scattering has become the single most powerful probe of condensed matter; it is also the most gentle."

Neutron scattering is one of the most effective ways to obtain information on both the structure and the dynamics of condensed matter.

Deep inelastic neutron scattering provides a unique tool for studying the microscopic dynamics of these systems.

Neutron scattering gives information about the nature of excitations and correlations (e.g. spinons).

Neutron scattering may eventually provide the evidence needed to show how high-temperature superconductivity works, a problem that has hotly divided physicists in recent years.

Neutron scattering can easily detect this when isotopic substitution of one of the components is employed.

Research project Neutron scattering is the perfect tool to investigate the microstructure as well as the microscopic dynamics.

Neutron scattering has important implications for materials scientists, physicists, life scientists, earth scientists and engineers.

For services to Neutron Scattering.

Neutron scattering is a spectroscopic method of measuring the atomic and magnetic motions of atoms.

Inelastic neutron scattering is similar to Raman spectroscopy, but uses neutrons instead of photons.

Note: for Neutron Scattering applications awards are made for a six month period commencing 1 January 2003.