Vertex detectors for the next LHC experiments upgrades will need to have low mass while at the same time be radiation hard and with sufficient granularity to fulfil the physics challenges of the next decade. Based on the gained experience with 3D silicon sensors for the ATLAS IBL project and the on-going developments on light materials, interconnectivity and cooling, this paper will discuss possible solutions to these requirements
Micro-systems based on the Micro Electro Mechanical Systems (MEMS) technology have been used in mini...
The inner tracking layers of all LHC experiments were designed and developed to cope with the enviro...
The trackers of the present LHC experiments mainly use silicon pixel detectors in the innermost regi...
To extend the physics reach of the Large Hadron Collider (LHC), upgrades to the accelerator are plan...
3D silicon detectors, in which the electrodes penetrate the sensor bulk perpendicular to the surface...
In order to increase its discovery potential, the Large Hadron Collider (LHC) accelerator will be up...
The upgrades of High Energy Physics (HEP) experiments at the Large Hadron Collider (LHC) will call f...
3D Si radiation sensors came along with extreme radiation hard properties, primarily owing to the ge...
As the final touches are being put to the LHC detectors, the race is on to perfect technologies whic...
New pixel sensors are currently under development for ATLAS Upgrades. The first upgrade stage will c...
3D silicon sensors, where electrodes penetrate the silicon substrate fully or partially, have succes...
The vertex detectors for the future hadronic colliders will operate under proton fluencies above 1e...
Future requirements of post-LHC vertex detectors are one step beyond the actual ones. Facing these n...
ABSTRACT: 3D silicon sensors, where plasma micro-machining is used to etch deep narrow aper-tures in...
Vertex detectors for High Energy Physics experiments require pixel detectors featuring high spatial ...
Micro-systems based on the Micro Electro Mechanical Systems (MEMS) technology have been used in mini...
The inner tracking layers of all LHC experiments were designed and developed to cope with the enviro...
The trackers of the present LHC experiments mainly use silicon pixel detectors in the innermost regi...
To extend the physics reach of the Large Hadron Collider (LHC), upgrades to the accelerator are plan...
3D silicon detectors, in which the electrodes penetrate the sensor bulk perpendicular to the surface...
In order to increase its discovery potential, the Large Hadron Collider (LHC) accelerator will be up...
The upgrades of High Energy Physics (HEP) experiments at the Large Hadron Collider (LHC) will call f...
3D Si radiation sensors came along with extreme radiation hard properties, primarily owing to the ge...
As the final touches are being put to the LHC detectors, the race is on to perfect technologies whic...
New pixel sensors are currently under development for ATLAS Upgrades. The first upgrade stage will c...
3D silicon sensors, where electrodes penetrate the silicon substrate fully or partially, have succes...
The vertex detectors for the future hadronic colliders will operate under proton fluencies above 1e...
Future requirements of post-LHC vertex detectors are one step beyond the actual ones. Facing these n...
ABSTRACT: 3D silicon sensors, where plasma micro-machining is used to etch deep narrow aper-tures in...
Vertex detectors for High Energy Physics experiments require pixel detectors featuring high spatial ...
Micro-systems based on the Micro Electro Mechanical Systems (MEMS) technology have been used in mini...
The inner tracking layers of all LHC experiments were designed and developed to cope with the enviro...
The trackers of the present LHC experiments mainly use silicon pixel detectors in the innermost regi...