Conveners
Semiconductor General 1
- Hiroyasu Tajima (Nagoya University)
In high-energy physics, there is a need to investigate silicon sensor concepts that offer large-area coverage and cost-efficiency for particle tracking detectors. Sensors based on CMOS imaging technology present a promising alternative silicon sensor concept.
As this technology follows a standardised industry process, it can provide lower sensor production costs and enable fast and...
Particle accelerators operated primarily for cancer treatment are valuable for testing high-energy physics (HEP) instruments. However, beam instrumentation, particularly primary beam monitors, cannot commonly measure the low particle rates typically used for HEP instrumentation tests. We are working on a primary beam monitor capable of detecting single particles while operational at clinical...
A high rate beam telescope, comprised of eight Timepix4-based sensor planes, has been constructed, featuring both thin (100 μm) planar sensors for better temporal measurements and thick (300 μm) sensors for more precise spatial measurements.
The Timepix4 ASIC, compatible with various sensor technologies, consists of a matrix of 448×512 pixels with a 55 μm square pitch. Simultaneous...
Muon-spin spectroscopy at continuous sources has long been limited to a muon stopping rate of approximately \SI{40}{kHz}.
The primary constraint arises from the requirement that only a single muon can be present in the sample during the \SI{10}{\mu s} data collection window.
This limitation stems from the widespread use of scintillator-based detectors to track incoming muons and outgoing...
