This setup measures the propagation-angle of gamma-rays from a radioactive source. Mounted on a movable X/Y table, it will be used for the calibration and characterisation of Terapet's gamma-detectors.
The part has been designed from relatively thick laser-cut acrylic sheets. This construction provides better accuracy and robustness compared to a previous design printed from PLA.
Prototype by Michael Betz (Terapet detector development)
Installed inside the shielding of two of the largest experiments at the Large Hadron Collider, ATLAS and CMS there are special collimators known as the Target Absorbers (TAS).
This equipment needs to be adjusted manually each time the detector opens. In addition to this, the TAS has been modified over the years, meaning that the alignment procedure does not match the procedure that was originally envisaged.
ATTARCT Phase 1 (2019-2020)
SWaP project: 3D printed metal pipe featuring pressure fittings, electrical feedthrough, and embedded 3D printed sensor Features:
β-NMR has proven its capabilities and advantages in the world of nuclear spectroscopy: Not only does it open the door to high precision measurements of nuclear properties, but it also facilitates investigations of unstable, short-lived isotopes, otherwise inaccessible to conventional NMR. Additionally, β-NMR allows for real-time observations of chemical processes, such as biomolecular folding mechanisms.
The C-Robot is a robotic system that was designed and built by 3 members of the CLEAR team (CERN Linear Electron Accelerator for Research). It was first designed to easily irradiate samples for medical applications. The robot is made of 3 linear stages for X,Y and Z axis, 6 limit switches (2 for each axis), a 3D printed grabber, a mounted-camera system with a moving filter and two tanks (one storage tank and one tank placed in the electron beam).
The "3D printed Detector" (3DET) collaboration is investigating and developing additive manufacturing as a new production technique for the future scintillator particle detectors with performances comparable to the state of the art.
CERN operates the LHC (Large Hadron Collider) the largest particle accelerator ever built. Four main experiments were established on its circumference with the purpose of resolving major scientific enigmas. The general-purpose detector CMS (Compact Muon Solenoid) is one of these experiments.
What happens when we apply fundamental science to real-world challenges?
Today, TERAPET is a Swiss medical technology start-up, but the idea did not start off in the business world. Two of the three founders had the idea when working on proton beam technology here at CERN.