Scattering Theory

Course guarantor:

Lecturer:

Tutor:

Supervisor:

Department of Physics

Synopsis:

Scattering matrix and probability of transition. Stationary theory of scattering. Scattering in outer field. Formfactors. Unitary of S-matrix and optical theorem. Analytical properties of scattering matrix. Separable form of scattering amplitude. Scattering of particle with spin. Theory of multiple scattering on compound systems. Particle scattering in three body system. High energy models. Coherent scattering neutrons by crystalic substances.

Requirements:

Syllabus of lectures:

1.Scattering matrix and probability of transition.

2.Stationary theory of scattering.

3.Scattering in outer field. Form factors.

4.Unitary of S-matrix and optical theorem.

5.Analytical properties of scattering matrix.

6.Separable form of scattering amplitude.

7.Scattering of particle with spin.

8.Theory of multiple scattering on compound systems.

9.Particle scattering in three body system.

10.High energy models.

11.Coherent scattering of neutrons by crystalline substances

12.Scattering of neutrons by liquids.

Syllabus of tutorials:

Study Objective:

Study materials:

1.J. Taylor: Scattering theory, J. Wiley, 1972. Particularly for lectures 1-7.

2.A. G. Sitenko, Lekcii po teorii rassejanija, Kijev 1971. Particularly for lectures 1-7.and 9.

3.A. C. Davydov, Kvantovaja mechanika, Leningrad 1963. Particularly for lectures 11.

4.R. Feynman, Statistical mechanics, Benjamin, 1972. Particularly for lectures 12.

5.A. K. Kerman et al., Ann. Phys. 8(1959) 551. Particularly for lectures 8.

6.J. Eisenberg, Ann. Phys. 8(1959)551. Particularly for lectures 10.

7.R. Mach, Czech. J. Phys. B33(1983)549, 616 a 772. Particularly for lectures 8.

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans: