Particle tracking and identification with Timepix-series detector setups in nuclear, particle and astrophysics
- NázevTitle
- Particle tracking and identification with Timepix-series detector setups in nuclear, particle and astrophysicsParticle tracking and identification with Timepix-series detector setups in nuclear, particle and astrophysics
- Druh výsledkuResult type
- Zvaná přednáškaInvited lecture
- AutořiAuthors
- B. Bergmann
- Časopis / citaceJournal / citation
- [Invited unpublished scientific lecture] Erlagen: ECAP Seminar, Erlangen Center For Astroparticle Physics, University Erlangen-Nuremberg. 2025-06-05.
- RokYear
- 2025
- JazykLanguage
- eng
- RIVRIV
- ProjektProject
- Identifikace částic v experimentech fysiky vysokych energií a ve vesmíru s pokročilými detekčními systémyParticle identification in high-energy physics experiments and space with advanced detection systems
AbstraktAbstract
In high energy physics experiments, hybrid pixel detectors are an integral part of the tracking systems closest to the interaction points, where their good spatial resolution and high radiation resilience allow for particle tracking by connection of “dots” registered in different layers of an onion-like detector. Another approach to particle detection and tracking relies on a complex analysis of the imprints seen in the pixel matrices (tracks), which provide a rich set of features. These allow for identification of impinging particles, particle trajectory or reaction kinematics reconstruction. The latter is particularly valuable for applications with limited resources, for example in space experiments, but it also enables fundamental-science-reach measurements with simple table-top experiments. In this contribution, I will present the latest results from Timepix-type detectors used within LHC experiments, as space radiation monitors in low Earth orbit, their possible application for measurement for galactic-cosmic-ray properties or as an X-ray polarimeter.
In high energy physics experiments, hybrid pixel detectors are an integral part of the tracking systems closest to the interaction points, where their good spatial resolution and high radiation resilience allow for particle tracking by connection of “dots” registered in different layers of an onion-like detector. Another approach to particle detection and tracking relies on a complex analysis of the imprints seen in the pixel matrices (tracks), which provide a rich set of features. These allow for identification of impinging particles, particle trajectory or reaction kinematics reconstruction. The latter is particularly valuable for applications with limited resources, for example in space experiments, but it also enables fundamental-science-reach measurements with simple table-top experiments. In this contribution, I will present the latest results from Timepix-type detectors used within LHC experiments, as space radiation monitors in low Earth orbit, their possible application for measurement for galactic-cosmic-ray properties or as an X-ray polarimeter.