IRIS
IRIS THz/Infrared Dipole Beamline
At synchrotron light sources of the second and third generation the emitted radiation in the infrared wavelength region is some orders of magnitude brighter than standard thermal broadband sources (e.g., globar). Infrared synchrotron radiation is an absolute source being polarized and pulsed in the picosecond timescale. As a particular specialty, BESSY II offers a new technique to generate high power, stable and low-noise Coherent Terahertz (THz) Radiation.
| Station data | |
|---|---|
| Temperature range | 1.6K - 500K |
| Pressure range | For details contact the scientist in charge. |
| More details | IR-Spectroscopy and Microscopy |
| Beamline data | |
| Segment | L02 |
| Location (Pillar) | 4.1 |
| Source | D11 (Dipole) |
| Monochromator | Fourier Transform Spectrometers |
| Energy range | .0006-1 eV, 2-10000 1/cm, 0.1-300 THz |
| Energy resolution | 0.125 1/cm |
| Flux | -- |
| Polarisation | linearly horizontal/vertical |
| Divergence horizontal | 60 mrad |
| Divergence vertical | 40 mrad |
| Focus size (hor. x vert.) | diffraction limited |
| User endstation | not possible |
| Distance Focus/last valve | variable mm |
| Height Focus/floor level | variable mm |
| Beam availability | 24h/d |
| Phone | +49 30 8062 14716 |
The IRIS Beamline at BESSY was inaugurated in December 2001. The large acceptance beamline offering broadband infrared radiation from the THz to the NIR is equipped with several end-stations: e.g., a Fourier-transform infrared (FT-IR) spectrometer (Bruker Vertex 70v), an infrared microscope (Bruker Vertex 80/Hyperion 3000) and a Single-shot time resolved spectrometer (Dispersive Fery prism), IR nano-spectrometer (Attocube neaScope scattering type near-field optical microscope). In addition, a free beam port is applicable for breadboarding experiments.