Course Outline
- Thin film deposition (sputtering vs e-beam) – [NK] – Monday (10 June @11am)
- Introduction and basic principles of Thin film deposition
- Physical Vapor Deposition Techniques
- Typical Applications
- Rutherford backscattering spectrometry (RBS) – [PS] – Monday (10 June @12pm)
- Introduction and basic principle of (RBS)
- Experimental setup and detection of scattered particles
- Normal and in-situ real-time RBS
- Resulting spectrum properties
- Typical application
- Elastic recoil detection analysis (ERDA) – [MMs] – Tuesday (11 June @11am)
- Introduction and basic principle of ERDA
- Experimental setup and detection of scattered particles
- Conventional ERDA and HI-ToF ERDA
- Resulting spectrum properties
- Typical application
- Particle induced x-ray emission (PIXE) – [CM], [NM] – Tuesday (11 June @12pm)
- Introduction and basic principle of PIXE
- Experimental setup and detection of scattered particles
- Resulting spectrum properties
- Typical application
- Low Temperature Magnetism ([LK] – Wednesday (12 June @11am)
- Introduction and basic principle of VSM
- Experimental Set-up
- Typical applications
- Materials modification using charged particles – [MMa], [MAM] – Wednesday (12 June @12pm)
- Introduction and basic principle of ion irradiation/implantation
- Experimental setup
- Typical application
- Nuclear Sciences & Techniques in Nanosciences & Nanotechnologies – [MM] – Thursday (13 June @11am)
- Introduction to nanosciences
- Nanosystems by nuclear based radiations
- Nanomaterials for neutron research reactors
- X-ray diffraction (XRD) – [RB]– Thursday (13 June @12pm)
- Introduction and basic principle of XRD
- Experimental setup and detection of x-rays particles
- Resulting spectrum properties
- Typical application
