Add to ORKGThis short review will be concerned with questions which arise in the design and construction of calorimeters whose common feature is that the signal is derived by drifting charge, deposited in a sensitive medium by showers induced by the interaction of photons, electrons or hadrons, under the influence of an electric field. This broad definition encompasses a variety of distinct technologies: sampling calorimeters in which the sensitive medium is liquid argon (SLD, D0, E706 [1], H1, HELIOS), a room-temperature liquid (UA1), high-resistivity silicon (H1, SLD) and fully-absorbing devices such as the KEDR electromagnetic calorimeter, which uses liquid krypton. Using examples drawn from the work of these groups, I will deal with several genera...
The next generation of collider detectors will most likely make full use of Particle Flow algorithms...
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic cal...
The next generation of collider detectors will most likely make full use of Particle Flow algorithms...
This short review will be concerned with questions which arise in the design and construction of cal...
An iron sampling calorimeter with warm-liquid ionization chambers has been tested at the CERN SPS in...
Calorimeters measure the energy a particle loses as it passes through the detector. They are designe...
Effects determining the energy and spatial resolution of a calorimeter based on liquid krypton have ...
Calorimetry in large detectors at LHC poses some requirements on readout electronics which are quite...
The fundamental properties of liquid noble gases and room temperature hydrocarbons of interest for c...
The subject of space charge due to positive ions slowly moving in parallel plate ionization chambers...
A prototype electromagnetic calorimeter containing 180 litres of liquid krypton has been tested in e...
The subject of this thesis is a new type of electromagnetic calorimeter, which is not based on propo...
Electromagnetic calorimetry forms a key element of almost all current high energy particle physics d...
A description of the liquid krypton calorimeter for the KEDR detector and experimental results on en...
Steel tubes of approximately 8 mm O.D., filled with Argon gas to approx. 200 bar, are considered as ...
The next generation of collider detectors will most likely make full use of Particle Flow algorithms...
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic cal...
The next generation of collider detectors will most likely make full use of Particle Flow algorithms...
This short review will be concerned with questions which arise in the design and construction of cal...
An iron sampling calorimeter with warm-liquid ionization chambers has been tested at the CERN SPS in...
Calorimeters measure the energy a particle loses as it passes through the detector. They are designe...
Effects determining the energy and spatial resolution of a calorimeter based on liquid krypton have ...
Calorimetry in large detectors at LHC poses some requirements on readout electronics which are quite...
The fundamental properties of liquid noble gases and room temperature hydrocarbons of interest for c...
The subject of space charge due to positive ions slowly moving in parallel plate ionization chambers...
A prototype electromagnetic calorimeter containing 180 litres of liquid krypton has been tested in e...
The subject of this thesis is a new type of electromagnetic calorimeter, which is not based on propo...
Electromagnetic calorimetry forms a key element of almost all current high energy particle physics d...
A description of the liquid krypton calorimeter for the KEDR detector and experimental results on en...
Steel tubes of approximately 8 mm O.D., filled with Argon gas to approx. 200 bar, are considered as ...
The next generation of collider detectors will most likely make full use of Particle Flow algorithms...
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic cal...
The next generation of collider detectors will most likely make full use of Particle Flow algorithms...