Add to ORKGRoman pot silicon detectors for the LHC TOTEM experiment require a highly reduced insensitive area at the edge where, for electrical stability, a terminating structure is required. This work provides an innovative approach based on standard planar fabrication technology which reduces the conventional width of the terminating structure to less than 100 micrometers. The approach decouples the electric behaviour of the surface and the sensitive volume. Beam test measurements demonstrate that detectors with this new structure are fully operational and fully efficient in less than 60 micrometers from the die cut. Detailed results are provided in the paper
The Roman pots of the TOTEM experiment at LHC will be equipped with edgeless silicon micro-strip det...
We report novel solutions for the edge termination in silicon detectors. In the framework of a proje...
The TOTEM experiment, small in size compared to the others at the LHC, is dedicated to the measureme...
294628 - IEEE 2005 0612135 - Planar Edgeless Silicon Detectors for the TOTEM Experiment - Abstract ...
Abstract—Silicon detectors for the Roman Pots of the the large hadron collider TOTEM experiment aim ...
The TOTEM experiment will detect leading protons scattered in angles of microradians from the intera...
TOTEM Roman Pot (RP) microstrip edgeless silicon detectors, fabricated with standard planar technolo...
The TOTEM experiment at the LHC will measure the total proton-proton cross-section with a precision ...
In silicon devices fabricated with standard planar technology a portion of the volume is lost to be...
The physics programme of the TOTEM experiment requires the detection of very forward protons scatter...
The objective of the program is to extend the potential of semiconductor detectors targeted to close...
The development of edgeless Si detectors was stimulated by the tasks of the total pp cross-section s...
The TOTEM collaboration has developed and tested the first prototype of its Roman Pots to be operate...
Silicon detectors with reduced or no dead volume along the edges have been attracting a lot of inter...
3 pages, 8 figures, proceedings of PAC05, Knoxville, Tennessee, USA, May 2005 - CMSInternational aud...
The Roman pots of the TOTEM experiment at LHC will be equipped with edgeless silicon micro-strip det...
We report novel solutions for the edge termination in silicon detectors. In the framework of a proje...
The TOTEM experiment, small in size compared to the others at the LHC, is dedicated to the measureme...
294628 - IEEE 2005 0612135 - Planar Edgeless Silicon Detectors for the TOTEM Experiment - Abstract ...
Abstract—Silicon detectors for the Roman Pots of the the large hadron collider TOTEM experiment aim ...
The TOTEM experiment will detect leading protons scattered in angles of microradians from the intera...
TOTEM Roman Pot (RP) microstrip edgeless silicon detectors, fabricated with standard planar technolo...
The TOTEM experiment at the LHC will measure the total proton-proton cross-section with a precision ...
In silicon devices fabricated with standard planar technology a portion of the volume is lost to be...
The physics programme of the TOTEM experiment requires the detection of very forward protons scatter...
The objective of the program is to extend the potential of semiconductor detectors targeted to close...
The development of edgeless Si detectors was stimulated by the tasks of the total pp cross-section s...
The TOTEM collaboration has developed and tested the first prototype of its Roman Pots to be operate...
Silicon detectors with reduced or no dead volume along the edges have been attracting a lot of inter...
3 pages, 8 figures, proceedings of PAC05, Knoxville, Tennessee, USA, May 2005 - CMSInternational aud...
The Roman pots of the TOTEM experiment at LHC will be equipped with edgeless silicon micro-strip det...
We report novel solutions for the edge termination in silicon detectors. In the framework of a proje...
The TOTEM experiment, small in size compared to the others at the LHC, is dedicated to the measureme...