Add to ORKGNoise is often the main factor limiting the performance of detector systems. In this work a detailed study of the noise contributions in different types of silicon microstrip sensors is carried on. We investigate three sensors with double-sided readout fabricated by different suppliers for the ALICE experiment at the CERN LHC, in addition to detectors including an integrated JFET Source-Follower as a first signal conditioning stage. The latter have been designed as an attempt at improving the performance when very long strips, obtained by gangling together several sensors, are required. After a description of the strip sensors and of their operation, the “static” characterization measurements performed on them (current and capacitance versu...
Two readout systems for silicon strip detectors (128- and 64-channels) have been developed in CMOS t...
Deep sub-micron CMOS technologies provide well established solutions to the implementation of low-no...
The ALICE experiment at CERN will study heavy ion collisions at a center-of-mass energy 5.5∼TeV per ...
We report on extensive noise measurements performed on double-sided, AC-coupled, punch-through biase...
We report on extensive noise measurements performed on double-sided, AC-coupled, punch-through biase...
Abstract the signal is low because, except for the avalanche photodiode, We studied three different ...
We report on noise measurements performed on the n-side of double-sided, AC-coupled, punch-through b...
Developing silicon strip sensors for the CMS Preshower detector we have noticed that some strips hav...
The noise seen by the front-end readout electronics of silicon microstrip detectors depends on the c...
We report on detailed interstrip admittance measurements performed on double-sided, AC-coupled and p...
We report on noise measurements performed on the n-side of double-sided, AC-coupled, punch-through b...
The benefit of introducing a threshold applied to the signal sum of two neighbouring strips instead ...
The calibration and performance of the Silicon Drift and Silicon Strip Detectors of the ALICE experi...
The electronic noise is a key-issue during the phases of design, integration, and characterization o...
Abstract We have investigated the efficiency and the noise occupancy of double-sided silicon strip d...
Two readout systems for silicon strip detectors (128- and 64-channels) have been developed in CMOS t...
Deep sub-micron CMOS technologies provide well established solutions to the implementation of low-no...
The ALICE experiment at CERN will study heavy ion collisions at a center-of-mass energy 5.5∼TeV per ...
We report on extensive noise measurements performed on double-sided, AC-coupled, punch-through biase...
We report on extensive noise measurements performed on double-sided, AC-coupled, punch-through biase...
Abstract the signal is low because, except for the avalanche photodiode, We studied three different ...
We report on noise measurements performed on the n-side of double-sided, AC-coupled, punch-through b...
Developing silicon strip sensors for the CMS Preshower detector we have noticed that some strips hav...
The noise seen by the front-end readout electronics of silicon microstrip detectors depends on the c...
We report on detailed interstrip admittance measurements performed on double-sided, AC-coupled and p...
We report on noise measurements performed on the n-side of double-sided, AC-coupled, punch-through b...
The benefit of introducing a threshold applied to the signal sum of two neighbouring strips instead ...
The calibration and performance of the Silicon Drift and Silicon Strip Detectors of the ALICE experi...
The electronic noise is a key-issue during the phases of design, integration, and characterization o...
Abstract We have investigated the efficiency and the noise occupancy of double-sided silicon strip d...
Two readout systems for silicon strip detectors (128- and 64-channels) have been developed in CMOS t...
Deep sub-micron CMOS technologies provide well established solutions to the implementation of low-no...
The ALICE experiment at CERN will study heavy ion collisions at a center-of-mass energy 5.5∼TeV per ...