- Trainer/in: Alexander Högele
- Trainer/in: Quinten Akkerman
- Trainer/in: Emiliano Cortés
- Trainer/in: Franz Gröbmeyer
- Trainer/in: Alena Khmelinskaia
- Trainer/in: Alexander Urban
X-ray diffraction experiments allow us to decode
the inner atomic structure of any kind of condensed matter we are aware of, be
it DNA, viruses, complex liquids, glasses and gases, well beyond simple
structures such as rock salt. Within the lecture, we will use kinematic
scattering theory, which is essentially Fraunhofer far field scattering, to
develop a deeper understanding of so called Bragg scattering techniques and the
concept of reciprocal space. For more subtle forms of order, such as short
range order in liquids, or phonons in solids, the concept of diffuse scattering
and correlation function will be introduced. Alongside, we will build up an
intuitive understanding of x-ray properties of matter and discuss generation of
x-rays in modern microfocus laboratory sources, 3rd and 4th generation
synchrotron sources such as Petra 3, and x-ray lasers such as the X-FEL, both
at DESY.
- Trainer/in: Bert Nickel
- Trainer/in: Jochen Feldmann
- Trainer/in: Theobald Lohmüller
- Trainer/in: Anna Abfalterer
- Trainer/in: Daphne Benedikt
- Trainer/in: Gerard Faustino Planella
- Trainer/in: Patrick Ganswindt
- Trainer/in: Martin Lee
- Trainer/in: Leo Luber
- Trainer/in: Tena Matosevic
- Trainer/in: Alexander Urban
- Trainer/in: Moritz Würf