JCNS Key Visual

Navigation and service

8th Laboratory Course - Neutron Scattering

13-24 September 2004 . Jülich - Germany

Forschungszentrum Jülich in cooperation with RWTH Aachen and WWU Münster


Supported by:

Opens new window

Sorry - Registration is closed! Please visit this site in Spring 2005 for the announcements of the 9th Labcourse.


The Institut für Festkörperforschung (Institute für Solid State Research) at the Forschungszentrum Jülich, Germany, organizes in cooperation with the University of Münster (Prof. D. Richter, Dr. R. Zorn) and the RWTH Aachen (Prof. G. Heger, Prof. T. Brückel) a laboratory course in neutron scattering with experiments at the neutron scattering facilities of the research reactor FRJ-2 in Jülich.

The laboratory course will consist of lectures and an experimental section. The lectures will encompass an introduction to neutron sources, into scattering theory and instrumentation. Furthermore, selected topics of condensed matter will be presented.

The laboratory course is part of the curriculum of the University of Münster and the RWTH Aachen.

It is the aim of the course to give a realistic insight into the experimental technique neutron scattering and its scientific power. The Forschungszentrum Jülich supports non-local students with free accomodation and half pension. Travel stipendia for foreign students are available by support from the European Neutron/Muon Initiative NMI3.

T. Brückel, G. Heger, D. Richter, R. Zorn


Lectures: Introduction to Neutron ScatteringExperimental Section
Start: 13 September 2004
End:  17 September 2004
Start: 20 September 2004
End:  24 September 2004
  • Introduction
  • Preparatory lectures: Fourier transform, reciprocal space, quantum mechanics
  • Neutron sources
  • Properties of the neutron, interaction potentials, scattering cross sections
  • Elementary scattering theory, elastic nuclear and magnetic scattering
  • Polarization analysis
  • Correlation functions
  • Continuum description
  • Translational and rotational dynamics
  • Diffractometer
  • Small angle scattering and reflectometry
  • Crystal spectrometer
  • Time-of-flight spectrometer
  • Neutron spin echo
  • Structure determination
  • Phonons and magnons
  • Soft matter: structure and dynamics
  • Magnetism: phase transitions, magnetization densities
  • Materials science and geology: texture analysis
  • Triple axis spectroscopy Dr. A. Hoser
  • Texture analysis J. Walter
  • Single crystal diffraction Dr. S. Mattauch
  • Small angle scattering Dr. D. Schwahn, Dr. W. Pyckhout
  • Neutron spin echo Dr. M. Monkenbusch
  • Time-of-flight spectroscopy Dr. M. Prager
  • Backscattering spectroscopy Dr. St. Kahle
  • Reflectometry Dr. U. Rücker, Dr. O. Seeck
  • Polarisation analysis Dr. W. Schweika
  • Neutron Polarisation Dr. A. Ioffe
  • Ultra-small angle scattering Dr. E. Kentzinger
The participating students will be divided into nine groups. Each group will perform one neutron scattering experiment per day, i.e. each group will work at five different instruments. The experimental data measured will be analysed by the students assisted by the scientist responsible for the instrument.