Recent Backscattering Instrument Developments at the ILL and SNS
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Bernhard Frick
Abstract
We present new developments in neutron backscattering spectroscopy from two major neutron scattering centers. The first example is the reactor backscattering project IN16B, which is under construction at the Institut Laue-Langevin (ILL), Grenoble, France, the second is the spallation source near-backscattering spectrometer BASIS at the spallation neutron source SNS, Oak Ridge National Laboratory, USA, in operation since 2007. After explaining the energy resolution contributions to neutron backscattering and presenting the current status, we describe the layout, performance and the complementarity of the two most advanced backscattering projects. A few examples should illustrate the status and new experimental possibilities.
© by Oldenbourg Wissenschaftsverlag, München, Germany
Artikel in diesem Heft
- Preface
- Editorial - Ad Memoriam Michael Prager
- Introduction to Quasielastic Neutron Scattering
- Recent Backscattering Instrument Developments at the ILL and SNS
- Surface Diffusion Studies Using Neutron and Helium Spin-echo Spectroscopy
- Slow Dynamics in Liquid Metals as Seen by QENS
- Are the Glass Forming Properties of Glycerol Changed when Disrupting the Hydrogen Bond Network by Addition of Silica Nanospheres?
- The Dynamic Response Function χT(Q,t) of Confined Supercooled Water and its Relation to the Dynamic Crossover Phenomenon
- Dynamics of Propylene adsorbed in Na-Y and Na-ZSM5 Zeolites: A QENS and MD Simulation Study
- Dynamics in Clays - Combining Neutron Scattering and Microscopic Simulation
- Concrete and Cement Paste Studied by Quasi-Elastic Neutron Scattering
- Dynamics in Biological Systems as seen by QENS
- Study of Protein Dynamics vs. Amyloid Formation
- Dynamics of Nanostructures for Drug Delivery: the Potential of QENS
- Dynamical Properties of Decorated Lamellar Microemulsions in the Brush Regime
- Monomer Dynamics in SDS Micellar Solution
- Hydrogen Dynamics in Lightweight Tetrahydroborates
- Dynamics of Caged Hydronium Ions and Super-protonic Conduction in (H3O)SbTeO6
Artikel in diesem Heft
- Preface
- Editorial - Ad Memoriam Michael Prager
- Introduction to Quasielastic Neutron Scattering
- Recent Backscattering Instrument Developments at the ILL and SNS
- Surface Diffusion Studies Using Neutron and Helium Spin-echo Spectroscopy
- Slow Dynamics in Liquid Metals as Seen by QENS
- Are the Glass Forming Properties of Glycerol Changed when Disrupting the Hydrogen Bond Network by Addition of Silica Nanospheres?
- The Dynamic Response Function χT(Q,t) of Confined Supercooled Water and its Relation to the Dynamic Crossover Phenomenon
- Dynamics of Propylene adsorbed in Na-Y and Na-ZSM5 Zeolites: A QENS and MD Simulation Study
- Dynamics in Clays - Combining Neutron Scattering and Microscopic Simulation
- Concrete and Cement Paste Studied by Quasi-Elastic Neutron Scattering
- Dynamics in Biological Systems as seen by QENS
- Study of Protein Dynamics vs. Amyloid Formation
- Dynamics of Nanostructures for Drug Delivery: the Potential of QENS
- Dynamical Properties of Decorated Lamellar Microemulsions in the Brush Regime
- Monomer Dynamics in SDS Micellar Solution
- Hydrogen Dynamics in Lightweight Tetrahydroborates
- Dynamics of Caged Hydronium Ions and Super-protonic Conduction in (H3O)SbTeO6
