A 128 Channels Analog Readout Chip (apvd_dc) For (2008)
G. Deptuch, U. Goerlach, C. Hu-guo, P. Schmitt, J. D. Berst, ...
The APVD_DC realised in the DMILL technology is a radiation-hard integrated circuit for front-end readout electronics of the silicon tracker of CMS.
Monolithic Active Pixel Sensors for High Resolution Vertex Detectors (2008)
Berst Claus Colledani, J. D. Berst, G. Claus, C. Colledani, G. Deptuch, W. Dulinski, ...
A novel Monolithic Active Pixel Sensor (MAPS) for charged particle tracking is presented. The partially depleted thin epitaxial layer of a low-resistivity silicon wafer is used as a sensitive...
Tests of monolithic active pixel sensors at national synchrotron light source (2007)
Deptuch, G., Besson, A., Carini, G.A., Siddons, D.P., Szeleniak, M., Winter, M.
The paper discusses basic characterization of Monolithic Active Pixel Sensors (MAPS) carried out at the X12A beam-line at National Synchrotron Light Source (NSLS), Upton, NY, USA. The tested device...
Optimization of Tracking Performance of CMOS Monolithic Active Pixel Sensors (2007)
Dulinski, W., Besson, A., Claus, G., Colledani, C., Deptuch, G., Deveaux, M., ...
CMOS Monolithic Active Pixel Sensors (MAPS) provide an attractive solution for high precision tracking of minimum ionizing particles. In these devices, a thin, moderately doped, undepleted silicon...
Optimization of Tracking Performance of CMOS Monolithic Active Pixel Sensors (2007)
Dulinski, W., Besson, A., Claus, G., Colledani, C., Deptuch, G., Deveaux, M., ...
CMOS Monolithic Active Pixel Sensors (MAPS) provide an attractive solution for high precision tracking of minimum ionizing particles. In these devices, a thin, moderately doped, undepleted silicon...
Tests of monolithic active pixel sensors at national synchrotron light source (2007)
Deptuch, G., Besson, A., Carini, G.A., Siddons, D.P., Szeleniak, M., Winter, M.
The paper discusses basic characterization of Monolithic Active Pixel Sensors (MAPS) carried out at the X12A beam-line at National Synchrotron Light Source (NSLS), Upton, NY, USA. The tested device...
Optimization of Tracking Performance of CMOS Monolithic Active Pixel Sensors (2007)
Dulinski, W., Besson, A., Claus, G., Colledani, C., Deptuch, G., Deveaux, M., ...
CMOS Monolithic Active Pixel Sensors (MAPS) provide an attractive solution for high precision tracking of minimum ionizing particles. In these devices, a thin, moderately doped, undepleted silicon...
Tests of monolithic active pixel sensors at national synchrotron light source (2007)
Deptuch, G., Besson, A., Carini, G.A., Siddons, D.P., Szeleniak, M., Winter, M.
The paper discusses basic characterization of Monolithic Active Pixel Sensors (MAPS) carried out at the X12A beam-line at National Synchrotron Light Source (NSLS), Upton, NY, USA. The tested device...
Bulgheroni, A., Badano, L., Berst, D., Bianchi, C., Bol, J., Caccia, M., ...
SUCIMA (Silicon Ultra fast Cameras for electron and γ sources In Medical Applications) is a project approved by the European Commission within the Fifth Framework Programme, with the primary...
Bulgheroni, A., Badano, L., Berst, D., Bianchi, C., Bol, J., Caccia, M., ...
SUCIMA (Silicon Ultra fast Cameras for electron and γ sources In Medical Applications) is a project approved by the European Commission within the Fifth Framework Programme, with the primary...
The SUCIMA project: A status report on high granularity dosimetry and proton beam monitoring (2006)
Caccia, M., Badano, L., Berst, D., Bianchi, C., Bol, J., Cappellini, C., ...
The SUCIMA collaboration has been developing instruments and methods for real-time, high granularity imaging of extended electron sources. In particular, dosimetry of intravascular brachytherapy...
Monolithic active pixel sensors for fast and high resolution vertex detectors (2006)
Gaycken, G., Besson, A., Gay, A., Gornushkin, Y., Grandjean, D., Guilloux, F., ...
Future high energy physics experiments require high luminosities and efficient and pure bottom and charm tagging. Monolithic Active Pixel Sensors (MAPS) promise to be particularly well suited for...
A vertex detector for the International Linear Collider based on CMOS sensors (2006)
Besson, A., Claus, G., Colledani, C., Degerli, Y., Deptuch, G., Deveaux, M., ...
The physics programme at the International Linear Collider (ILC) calls for a vertex detector (VD) providing unprecedented flavour tagging performances, especially for c-quarks and τ leptons....
Degerli, Y., Besancon, M., Besson, A., Claus, G., Deptuch, G., Dulinski, W., ...
We report on the performance of the MIMOSA8 (HiMAPS1) chip. The chip is a 128$, times ,$32 pixels array where 24 columns have discriminated binary outputs and eight columns analog test outputs....
Degerli, Y., Besancon, M., Besson, A., Claus, G., Deptuch, G., Dulinski, W., ...
We report on the performance of the MIMOSA8 (HiMAPS1) chip. The chip is a 128$, times ,$32 pixels array where 24 columns have discriminated binary outputs and eight columns analog test outputs....
A vertex detector for the International Linear Collider based on CMOS sensors (2006)
Besson, A., Claus, G., Colledani, C., Degerli, Y., Deptuch, G., Deveaux, M., ...
The physics programme at the International Linear Collider (ILC) calls for a vertex detector (VD) providing unprecedented flavour tagging performances, especially for c-quarks and τ leptons....
Degerli, Y., Besancon, M., Besson, A., Claus, G., Deptuch, G., Dulinski, W., ...
We report on the performance of the MIMOSA8 (HiMAPS1) chip. The chip is a 128$, times ,$32 pixels array where 24 columns have discriminated binary outputs and eight columns analog test outputs....
A vertex detector for the International Linear Collider based on CMOS sensors (2006)
Besson, A., Claus, G., Colledani, C., Degerli, Y., Deptuch, G., Deveaux, M., ...
The physics programme at the International Linear Collider (ILC) calls for a vertex detector (VD) providing unprecedented flavour tagging performances, especially for c-quarks and τ leptons....
High resolution pixel detectors for $e^+e^-$ linear colliders (2005)
Caccia, M., Campagnolo, R., Mew. Kucewicz, C., Deptuch, G., Zalewska, A., Battaglia, M., ...
The physics goals at the future e+e- linear collider require high performance vertexing and impact parameter resolution. Two possible technologies for the vertex detector of an experimental apparatus...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast monolithic active pixel sensors are studied. A standard CMOS 0.25$mu$m digital process is used to design a test...
Deptuch, G., Dulinski, W., Caccia, M., Winter, M.
A new domain of application of monolithic active pixel sensors, with respect to particle tracking, has been triggered by the innovative idea of a nondestructive beam monitoring system in the...
Charge collection properties of X-ray irradiated monolithic active pixel sensors (2005)
Deveaux, M., Berst, J.D., De Boer, W., Caccia, M., Claus, G., Deptuch, G., ...
CMOS monolithic active pixel sensors (MAPS) constitute a novel technique for position sensitive charged particle detectors. Their development is driven by the requirements of vertex detectors for...
High-resolution CMOS sensors for a vertex detector at the Linear Collider (2005)
Gay, A., Claus, G., Colledani, C., Deptuch, G., Deveaux, M., Dulinski, W., ...
CMOS pixel sensors are a very attractive solution for future vertex detectors needing very high granularity and minimal material budget. The first prototypes, made of small arrays of a few thousands...
Tests of a backside illuminated monolithic CMOS pixel sensor in an HPD set-up (2005)
Dulinski, W., Braem, A., Caccia, M., Claus, G., Deptuch, G., Grandjean, D., ...
A backside illuminated, monolithic CMOS pixel sensor for direct detection of low energy electrons has been developed and is proposed as an active element for a non-destructive hadron beam monitor. In...
The first autoradiographic results of the tritium ($^3H$) marked source obtained with monolithic active pixel sensors are presented. The detector is a high-resolution, back-side illuminated imager,...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast monolithic active pixel sensors are studied. A standard CMOS 0.25$mu$m digital process is used to design a test...
Deptuch, G., Dulinski, W., Caccia, M., Winter, M.
A new domain of application of monolithic active pixel sensors, with respect to particle tracking, has been triggered by the innovative idea of a nondestructive beam monitoring system in the...
Charge collection properties of X-ray irradiated monolithic active pixel sensors (2005)
Deveaux, M., Berst, J.D., De Boer, W., Caccia, M., Claus, G., Deptuch, G., ...
CMOS monolithic active pixel sensors (MAPS) constitute a novel technique for position sensitive charged particle detectors. Their development is driven by the requirements of vertex detectors for...
High-resolution CMOS sensors for a vertex detector at the Linear Collider (2005)
Gay, A., Claus, G., Colledani, C., Deptuch, G., Deveaux, M., Dulinski, W., ...
CMOS pixel sensors are a very attractive solution for future vertex detectors needing very high granularity and minimal material budget. The first prototypes, made of small arrays of a few thousands...
Tests of a backside illuminated monolithic CMOS pixel sensor in an HPD set-up (2005)
Dulinski, W., Braem, A., Caccia, M., Claus, G., Deptuch, G., Grandjean, D., ...
A backside illuminated, monolithic CMOS pixel sensor for direct detection of low energy electrons has been developed and is proposed as an active element for a non-destructive hadron beam monitor. In...
The first autoradiographic results of the tritium ($^3H$) marked source obtained with monolithic active pixel sensors are presented. The detector is a high-resolution, back-side illuminated imager,...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast monolithic active pixel sensors are studied. A standard CMOS 0.25$mu$m digital process is used to design a test...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast monolithic active pixel sensors are studied. A standard CMOS 0.25$mu$m digital process is used to design a test...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast monolithic active pixel sensors are studied. A standard CMOS 0.25$mu$m digital process is used to design a test...
Deptuch, G., Claus, G., Colledani, C., Degerli, Y., Dulinski, W., Fourches, N., ...
Monolithic active pixel sensors constitute a viable alternative to hybrid pixel sensors and charge coupled devices for the next generation of vertex detectors. Possible applications will strongly...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast active monolithic active pixel sensors are studied. Standard CMOS 0.25 mum digital process is used to design a test...
Monolithic active pixel sensors adapted to future vertex detector requirements (2004)
Deptuch, G., Besson, A., Claus, G., Colledani, C., Deveaux, M., Dulinski, W., ...
Deptuch, G., Claus, G., Colledani, C., Degerli, Y., Dulinski, W., Fourches, N., ...
Monolithic active pixel sensors constitute a viable alternative to hybrid pixel sensors and charge coupled devices for the next generation of vertex detectors. Possible applications will strongly...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast active monolithic active pixel sensors are studied. Standard CMOS 0.25 mum digital process is used to design a test...
Monolithic active pixel sensors adapted to future vertex detector requirements (2004)
Deptuch, G., Besson, A., Claus, G., Colledani, C., Deveaux, M., Dulinski, W., ...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast active monolithic active pixel sensors are studied. Standard CMOS 0.25 mum digital process is used to design a test...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast active monolithic active pixel sensors are studied. Standard CMOS 0.25 mum digital process is used to design a test...
Degerli, Y., Deptuch, G., Fourches, N., Himmi, A., Li, Y., Lutz, P., ...
In order to develop precision vertex detectors for the future linear collider, fast active monolithic active pixel sensors are studied. Standard CMOS 0.25 mum digital process is used to design a test...
Neutron radiation hardness of monolithic active pixel sensors for charged particle tracking (2003)
Deveaux, M., Claus, G., Deptuch, G., Dulinski, W., Gornushkin, Y., Winter, M.
Monolithic active pixel sensors with on-pixel amplification and double sampling operation (2003)
Deptuch, G., Dulinski, W., Gornushkin, Y., Hu-Guo, C., Valin, I.
Tracking performance and radiation tolerance of monolithic active pixel sensors (2003)
Gornushkin, Yu., Deveaux, M., Gay, A., Himmi, A., Hu, Ch., Valin, I., ...
Development of monolithic active pixel sensors for charged particle tracking (2003)
Deptuch, G., Claus, G., Colledani, C., Deveaux, M., Gay, A., Dulinski, W., ...
Neutron radiation hardness of monolithic active pixel sensors for charged particle tracking (2003)
Deveaux, M., Claus, G., Deptuch, G., Dulinski, W., Gornushkin, Y., Winter, M.
Monolithic active pixel sensors with on-pixel amplification and double sampling operation (2003)
Deptuch, G., Dulinski, W., Gornushkin, Y., Hu-Guo, C., Valin, I.
Tracking performance and radiation tolerance of monolithic active pixel sensors (2003)
Gornushkin, Yu., Deveaux, M., Gay, A., Himmi, A., Hu, Ch., Valin, I., ...
Development of monolithic active pixel sensors for charged particle tracking (2003)
Deptuch, G., Claus, G., Colledani, C., Deveaux, M., Gay, A., Dulinski, W., ...
Silicon ultra fast cameras for electron and #g sources in medical applications. (2003)
Cacciaa, M., Airoldi, A., Alemi, M., Amati, M., Badano, L., Bartsch, V., ...
Innovative Particle and Radiation Detectors, Siena, I, October 21-24, 2002
Radiation hardness study of an APS CMOS particle tracker (2002)
Dulinski, W., Deptuch, G., Gornushkin, Yu., Jalocha, P., Winter, M.
Monolithic CMOS pixels for charged particle tracking (2002)
Gornushkin, Yu., Deptuch, G., Winter, M., Claus, G., Dulinski, W.
Test and evaluation of HAL25: The ALICE SSD front-end chip (2002)
Hu-Guo, C., Bonnet, D., Coffin, J-P., Deptuch, G., Gojak, C., Lutz, J-R., ...
Design and testing of monolithic active pixel sensors for charged particle tracking (2002)
Deptuch, G., Berst, J.D., Claus, G., Colledani, C., Dulinski, W., Gornushkin, Y., ...
Test results of monolithic active pixel sensors for charged particle tracking (2002)
Gornushkin, Y., Claus, G., De Boer, W., Bol, J., Deptuch, G., Dierlamm, A., ...
Radiation hardness study of an APS CMOS particle tracker (2002)
Dulinski, W., Deptuch, G., Gornushkin, Yu., Jalocha, P., Winter, M.
Monolithic CMOS pixels for charged particle tracking (2002)
Gornushkin, Yu., Deptuch, G., Winter, M., Claus, G., Dulinski, W.
Test and evaluation of HAL25: The ALICE SSD front-end chip (2002)
Hu-Guo, C., Bonnet, D., Coffin, J-P., Deptuch, G., Gojak, C., Lutz, J-R., ...
Design and testing of monolithic active pixel sensors for charged particle tracking (2002)
Deptuch, G., Berst, J.D., Claus, G., Colledani, C., Dulinski, W., Gornushkin, Y., ...
Test results of monolithic active pixel sensors for charged particle tracking (2002)
Gornushkin, Y., Claus, G., De Boer, W., Bol, J., Deptuch, G., Dierlamm, A., ...
Deptuch, G, Gay, A, Gornushkin, Yu, Hu, C, Valin, I, Winter, M, ...
The HAL25 front-end chip for the ALICE silicon strip detectors (2001)
Bonnet, D., Brogna, A., Coffin, J.P., Deptuch, G., Gojak, C., Hu Guo, C., ...
Monolithic active pixel sensors for a linear collider (2001)
Deptuch, G., Claus, G., Dulinski, W., Gornuskin, Y., Husson, D., Winter, M.
Particle tracking using CMOS monolithic active pixel sensor (2001)
Claus, G., Colledani, C., Dulinski, W., Husson, D., Turchetta, R., Riester, J.L., ...
Simulation and measurements of charge collection in monolithic active pixel sensors (2001)
Deptuch, G., Winter, M., Dulinski, W., Husson, D., Turchetta, R., Riester, J.L.
The HAL25 front-end chip for the ALICE silicon strip detectors (2001)
Bonnet, D., Brogna, A., Coffin, J.P., Deptuch, G., Gojak, C., Hu Guo, C., ...
Monolithic active pixel sensors for a linear collider (2001)
Deptuch, G., Claus, G., Dulinski, W., Gornuskin, Y., Husson, D., Winter, M.
Particle tracking using CMOS monolithic active pixel sensor (2001)
Claus, G., Colledani, C., Dulinski, W., Husson, D., Turchetta, R., Riester, J.L., ...
Simulation and measurements of charge collection in monolithic active pixel sensors (2001)
Deptuch, G., Winter, M., Dulinski, W., Husson, D., Turchetta, R., Riester, J.L.
Detector and Front-end electronics for ALICE and STAR silicon strip layers (2000)
Arnold, L, Baudot, J, Coffin, J P, Guillaume, G, Higueret, S, Jundt, F, ...
Detector modules consisting of Silicon Strip Detector (SSD) and Front End Electronics (FEE) assembly have been designed in order to provide the two outer layers of the ALICE Inner Tracker System...
The APVD readout circuit for DC-coupled Silicon detectors (2000)
Berst, J.D., Colledani, C., Dellanegra, R., Deptuch, G., Dulinski, W., Dupanloup, M., ...
Monolithic active pixel sensors for high resolution vertex detectors (2000)
Berst, J.D., Claus, G., Colledani, C., Deptuch, G., Dulinski, W., Goerlach, U., ...
Design and testing of monolithic active pixel sensors for charged particle tracking (2000)
Deptuch, G., Berst, J.D., Claus, G., Colledani, C., Dulinski, W., Goerlach, U., ...
The APVD readout circuit for DC-coupled Silicon detectors (2000)
Berst, J.D., Colledani, C., Dellanegra, R., Deptuch, G., Dulinski, W., Dupanloup, M., ...
Monolithic active pixel sensors for high resolution vertex detectors (2000)
Berst, J.D., Claus, G., Colledani, C., Deptuch, G., Dulinski, W., Goerlach, U., ...
Design and testing of monolithic active pixel sensors for charged particle tracking (2000)
Deptuch, G., Berst, J.D., Claus, G., Colledani, C., Dulinski, W., Goerlach, U., ...
High resolution pixel detectors for e+e- linear colliders (1999)
Caccia, M., Campagnolo, R., Meroni, C., Kucewicz, W., Deptuch, G., Zalewska, A., ...
The physics goals at the future e+e- linear collider require high performance vertexing and impact parameter resolution. Two possible technologies for the vertex detector of an experimental apparatus...
High resolution pixel detectors for $e^+e^-$ linear colliders (1999)
Caccia, M., Campagnolo, R., Mew. Kucewicz, C., Deptuch, G., Zalewska, A., Battaglia, M., ...
The physics goals at the future e+e- linear collider require high performance vertexing and impact parameter resolution. Two possible technologies for the vertex detector of an experimental apparatus...
High resolution pixel detectors for $e^+e^-$ linear colliders (1999)
Caccia, M., Campagnolo, R., Mew. Kucewicz, C., Deptuch, G., Zalewska, A., Battaglia, M., ...
The physics goals at the future e+e- linear collider require high performance vertexing and impact parameter resolution. Two possible technologies for the vertex detector of an experimental apparatus...
Performance of a CMOS mixed analogue-digital circuit (APVD) for the silicon tracker of CMS (1998)
Anstotz, F, Berst, J D, Borgeaud, P, Croix, J, Deptuch, G, Dupanloup, M, ...