CERN Accelerating science

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1.

ALICE-PHO-GEN-2018-002
© 2018 CERN, for the benefit of the ALICE Collaboration
ALICE virtual visit with a Greek school
Virtual visit of the ALICE control room organised [...]
27-04-2018
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2.

ALICE-PHO-GEN-2018-001
© 2018 CERN, for the benefit of the ALICE Collaboration
ALICE 25 years anniversary celebration
Pictures of the jubilee event organised at CERN on [...]
21-03-2018
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3.

ALICE-PHO-GEN-2017-004
© 2017 CERN, for the benefit of the ALICE Collaboration
Thesis Awards 2017
Thesis Awards 2017 - ALICE week July 2017
26-07-2017
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4.

ALICE-PHO-GEN-2017-003
© 2017 CERN, for the benefit of the ALICE Collaboration
Students of Liceo Ettore Majorana of Lampedusa (Italy) visiting ALICE
Students and teachers of Liceo Scientifico Ettore [...]
04-03-2017
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5.

ALICE-PHO-GEN-2016-002
© 2016 CERN, for the benefit of the ALICE Collaboration
30 Years of Heavy Ions... what next?
Celebration event in occasion of 30 years from the [...]
09-11-2016
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6.
The ATLAS Fast Tracker Processing Units - track finding and fitting / ATLAS Collaboration
The Fast Tracker is a hardware upgrade to the ATLAS trigger and data-acquisition system, with the goal of providing global track reconstruction by the start of the High Level Trigger starts. [...]
ATL-DAQ-PROC-2016-030.
- 2016. - 3 p.
Original Communication (restricted to ATLAS) - Full text
7.
First measurements of segmented silicon tracking detectors with built-in multiplication layer / Cavallaro, Emanuele (Barcelona, IFAE) ; Lange, Jörn (Barcelona, IFAE) ; Lopez Paz, Ivan (Barcelona, IFAE) ; Grinstein, Sebastian (Barcelona, IFAE) ; Baselga, Marta (Barcelona, Inst. Microelectron.) ; Greco, Virginia (Barcelona, Inst. Microelectron.) ; Quirion, David (Barcelona, Inst. Microelectron.) ; Pellegrini, Giulio (Barcelona, Inst. Microelectron.)
Silicon sensors with a built-in multiplication layer, also known as Low Gain Avalanche Detectors (LGAD), are a new technology of potentially radiation hard silicon sensors developed at CNM (Centro Nacional de Microelectrónica) in the framework of the CERN-RD50 collaboration. The concept of the LGAD technology is to produce a tracking sensor with an intrinsic low gain due to charge multiplication in order to enhance the signal-to-noise ratio. [...]
2015 - 5 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 796 (2015) 136-140
In : 10th International Conference on Radiation Effects on Semiconductor Materials, Detectors, and Devices, Florence, Italy, 8 - 10 Oct 2014, pp.136-140
8.
Design and Fabrication of an Optimum Peripheral Region for Low Gain Avalanche Detectors / Fernandez-Martinez, Pablo (Barcelona, Inst. Microelectron.) ; Flores, David (Barcelona, Inst. Microelectron.) ; Hidalgo, Salvador (Barcelona, Inst. Microelectron.) ; Greco, Virginia (Barcelona, Inst. Microelectron.) ; Merlos, Angel (Barcelona, Inst. Microelectron.) ; Pellegrini, Giulio (Barcelona, Inst. Microelectron.) ; Quirion, David (Barcelona, Inst. Microelectron.)
Low Gain Avalanche Detectors (LGAD) represent a remarkable advance in high energy particle detection, since they provide a moderate increase (gain ~10) of the collected charge, thus leading to a notable improvement of the signal-to-noise ratio, which largely extends the possible application of Silicon detectors beyond their present working field. The optimum detection performance requires a careful implementation of the multiplication junction, in order to obtain the desired gain on the read out signal, but also a proper design of the edge termination and the peripheral region, which prevents the LGAD detectors from premature breakdown and large leakage current. [...]
arXiv:1510.08626.- 2016-03-17 - 8 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 821 (2016) 93-100 Fulltext: PDF; External link: Preprint
9.
A small experiment with a vast amount of potential / Bressan, Beatrice (CERN) ; Greco, Virginia (CERN) /for the TOTEM Collaboration
The TOTEM experiment is one of the smallest at the LHC, but it uses innovative detectors to explore physics that is largely beyond the reach of its giant siblings..
2009 - Published in : CERN Cour.: 49 (2009) , no. 7, pp. 19-21 External link: CERN Courier server

See also: similar author names
103 Greco, V
24 Greco, V.
36 Greco, Vincenzo
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