This lecture course will review the latest advances in high energy physics detector technologies and techniques. The course will feature a lecture each on the main detector types used in the modern particle physics collider experiments, charged particle tracking, calorimetry, muon detectors and triggering. Such technologies could be used in future LHC experiment upgrades, detectors for an e+e- linear collider, or future high energy colliders. Different collider experiments provide new detector challenges, for example, related to radiation hardness, detector resolution and timing capabilities. The latest challenges and possible solutions will be discusse
In this lecture we will present a short historical overview of different tracking detectors. Then we...
Calorimetry and Muon Spectrometers - Part I : In the first part of the lecture series, the motivatio...
The field of experimental particle physics studies the fundamental particles and forces that constit...
This lecture course will review the latest advances in high energy physics detector technologies and...
This lecture course will review the latest advances in high energy physics detector technologies and...
The lecture series will present and overview of the basic techniques and underlying physical princip...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
The intense R&D effort being carried out in view of LHC has given rise in a relatively short time to...
This lecture series on detectors, will give a general, although somewhat compressed, introduction to...
Tracking Detectors - Part II. Calorimetry, muon detection, vertexing, and tracking will play a cent...
Reconstructing tracks in the events taken by LHC experiments is one of the most challenging and comp...
In this lecture we will present a short historical overview of different tracking detectors. Then we...
Calorimetry and Muon Spectrometers - Part I : In the first part of the lecture series, the motivatio...
The field of experimental particle physics studies the fundamental particles and forces that constit...
This lecture course will review the latest advances in high energy physics detector technologies and...
This lecture course will review the latest advances in high energy physics detector technologies and...
The lecture series will present and overview of the basic techniques and underlying physical princip...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
This lecture will serve as an introduction to particle detectors and detection techniques. In the fi...
The intense R&D effort being carried out in view of LHC has given rise in a relatively short time to...
This lecture series on detectors, will give a general, although somewhat compressed, introduction to...
Tracking Detectors - Part II. Calorimetry, muon detection, vertexing, and tracking will play a cent...
Reconstructing tracks in the events taken by LHC experiments is one of the most challenging and comp...
In this lecture we will present a short historical overview of different tracking detectors. Then we...
Calorimetry and Muon Spectrometers - Part I : In the first part of the lecture series, the motivatio...
The field of experimental particle physics studies the fundamental particles and forces that constit...