S. Hidalgo scite author profile

S. Hidalgo

2Publications

79Citation Statements Received

65Citation Statements Given

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Affiliations

Institute of Microelectronics of Barcelona, Centro Nacional de Microelectrónica, Microelectronica (Romania)

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Timing performance of small cell 3D silicon detectors

Kramberger

Cindro

Flores

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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A silicon 3D detector with a single cell of 50 × 50 µm 2 was produced and evaluated for timing applications. The measurements of time resolution were performed for 90 Sr electrons with dedicated electronics used also for determining time resolution of Low Gain Avalanche Detectors (LGADs). The measurements were compared to those with LGADs and also simulations. The studies showed that the dominant contribution to the timing resolution comes from the time walk originating from different induced current shapes for hits over the cell area. This contribution decreases with higher bias voltages, lower temperatures and smaller cell sizes. It is around 30 ps for a 3D detector of 50 × 50 µm 2 cell at 150 V and -20 • C, which is comparable to the time walk due to Landau fluctuations in LGADs. It even improves for inclined tracks and larger pads composed of multiple cells. A good agreement between measurements and simulations was obtained, thus validating the simulation results. PACS: 85.30.De; 29.40.Wk; 29.40.Gx Work performed in the framework of the CERN-RD50 collaboration.

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Beam test measurements of Low Gain Avalanche Detector single pads and arrays for the ATLAS High Granularity Timing Detector

et al. 2018

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A : For the high luminosity upgrade of the LHC at CERN, ATLAS is considering the addition of a High Granularity Timing Detector (HGTD) in front of the end cap and forward calorimeters at |z| = 3.5 m and covering the region 2.4 < η < 4 to help reducing the effect of pile-up. The chosen sensors are arrays of 50 µm thin Low Gain Avalanche Detectors (LGAD). This paper presents results on single LGAD sensors with a surface area of 1.3×1.3 mm 2 and arrays with 2×2 pads with a surface area of 2×2 mm 2 or 3×3 mm 2 each and different implant doses of the p + multiplication layer. They are obtained from data collected during a beam test campaign in autumn 2016 with a pion beam of 120 GeV energy at the CERN SPS. In addition to several quantities measured inclusively for each pad, the gain, efficiency and time resolution have been estimated as a function of the position of the incident particle inside the pad by using a beam telescope with a position resolution of few µm. Different methods to measure the time resolution are compared, yielding consistent results. The sensors with a surface area of 1.3×1.3 mm 2 have a time resolution of about 40 ps for a gain of 20 and of about 27 ps for a gain of 50 and fulfil the HGTD requirements. Larger sensors have, as expected, a degraded time resolution. All sensors show very good efficiency and time resolution uniformity. K: Solid state detectors; Timing detectors A X P : 1804.00622

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S. Hidalgo

Timing performance of small cell 3D silicon detectors

Beam test measurements of Low Gain Avalanche Detector single pads and arrays for the ATLAS High Granularity Timing Detector

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