A Silicon Dr ift Detector (SDD) with an active area of 7.0 x 7.5 cm(2) has been designed, produced and tested for the ALICE Inner Tracking System. The development of the SDD has been focused on the capability of the detector to work without an external support to the integrated high-voltage divider. Several features have been implemented in the design in order to increase the robustness and the long-term electrical stability of the detector. One of the prototypes has been tested in a pion beam at the CERN SPS. Preliminary results on the position resolution are given. (C) 2001 Elsevier Science B.V, All rights reserved
Silicon drift detectors with an active area of 7.0 x 7.5 cm(2) will equip the two middle layers of t...
. Large area, 7.25 cm x 8.76 cm, silicon drift detectors have been developed and are in production f...
Silicon drift detectors with an active area of 7.0x7.5 cm2 will equip the two middle layers ofthe In...
A Silicon Drift Detector (SDD) with an active area of 7:0 7:5 cm2 has been designed, produced and t...
Two hundred and sixty Silicon Drift Detectors (SDDs), each with an active area of 7.0 x 7.5 cm(2), w...
The project of the two Silicon Drift Detector (SDD) layers of the ALICE Inner Tracking System is rev...
Silicon drift detectors (SDDs) are well suited to high-energy physics experiments with relatively lo...
The introductory part of this bachelor’s degree work discusses semiconductor detectors (almost exclu...
The ALICE experiment studies the properties of quark‐gluon plasma and requires a good tracking syste...
Silicon Drift Detectors (SDDs) have been selected to equip the two intermediate layers of the Inner ...
Large area, 7.25 x 8.76 cm(2), Silicon Drift Detector (SDD) has been developed for the ALICE experim...
The silicon drift detectors (SDDs) provide, through the measurement of the drift time of the charge ...
Silicon drift detectors with an active area of 7.0 x 7.5 cm(2) will equip the two middle layers of t...
The ALICE experiment at the LHC will study collisions of heavy-ions at a centre-of-mass energy 5.5Te...
The ALICE experiment at the LHC will study collisions of heavy-ions at a centre-of-mass energy simil...
Silicon drift detectors with an active area of 7.0 x 7.5 cm(2) will equip the two middle layers of t...
. Large area, 7.25 cm x 8.76 cm, silicon drift detectors have been developed and are in production f...
Silicon drift detectors with an active area of 7.0x7.5 cm2 will equip the two middle layers ofthe In...
A Silicon Drift Detector (SDD) with an active area of 7:0 7:5 cm2 has been designed, produced and t...
Two hundred and sixty Silicon Drift Detectors (SDDs), each with an active area of 7.0 x 7.5 cm(2), w...
The project of the two Silicon Drift Detector (SDD) layers of the ALICE Inner Tracking System is rev...
Silicon drift detectors (SDDs) are well suited to high-energy physics experiments with relatively lo...
The introductory part of this bachelor’s degree work discusses semiconductor detectors (almost exclu...
The ALICE experiment studies the properties of quark‐gluon plasma and requires a good tracking syste...
Silicon Drift Detectors (SDDs) have been selected to equip the two intermediate layers of the Inner ...
Large area, 7.25 x 8.76 cm(2), Silicon Drift Detector (SDD) has been developed for the ALICE experim...
The silicon drift detectors (SDDs) provide, through the measurement of the drift time of the charge ...
Silicon drift detectors with an active area of 7.0 x 7.5 cm(2) will equip the two middle layers of t...
The ALICE experiment at the LHC will study collisions of heavy-ions at a centre-of-mass energy 5.5Te...
The ALICE experiment at the LHC will study collisions of heavy-ions at a centre-of-mass energy simil...
Silicon drift detectors with an active area of 7.0 x 7.5 cm(2) will equip the two middle layers of t...
. Large area, 7.25 cm x 8.76 cm, silicon drift detectors have been developed and are in production f...
Silicon drift detectors with an active area of 7.0x7.5 cm2 will equip the two middle layers ofthe In...