Ion beam composition mapping and imaging provides two-dimensional visualization of a sample. Images are obtained by recording effects of the interaction between matter and the ion beam. Common techniques are Particle Induced X-ray Emission or Gamma -Ray Emission (PIXE, PIGE), Scanning Transmission Ion Microscopy, and Ion Beam Induced Charge Measurements.
| Network | Infrastructure | Instrument | Country | Link |
|---|---|---|---|---|
| RADIATE | AL | 1.7 MV Tandem Pelletron | FI | More details |
| RADIATE | CMAM | 5 MV tandem + internal and external microbeam | ES | More details |
| RADIATE | IBC | Helium Ion Microscopy | DE | More details |
| RADIATE | IBC | 100 kV Ion Platform | DE | More details |
| RADIATE | IBC | 6 MV Tandem Accelerator | DE | More details |
| RADIATE | IMBL | 1.7 MV Tandem Pelletron | BE | More details |
| RADIATE | LABEC | 3 MeV Tandetron | IT | More details |
| RADIATE | LT | Ion beam lines at Tandetron | CZ | More details |
| RADIATE | MIC | Ion beam lines at Tandetron | SI | More details |
| RADIATE | MIC | JSI Tandetron | SI | More details |
| RADIATE | RBI-AF | 1 MV Tandentron and 6 MV Tandem Van de Graaff | HR | |
| RADIATE | Tandem Laboratory | 350 kV Implanter | SE | More details |