Author:
Bertelli S.,Bossi F.,Di Giulio C.,Di Meco E.,Dimitrova K.,De Sangro R.,Domenici D.,Frankenthal A.,Ferrarotto F.,Finocchiaro G.,Foggetta L.G.,Garattini M.,Georgiev G.,Gianotti P.,Ivanov S.,Ivanov Sv.,Kozhuharov V.,Leonardi E.,Long E.,Mancini M.,Oceano I.,Oliva F.,Organtini G.C.,Piperno G.,Raggi M.,Sarra I.,Simeonov R.,Spadaro T.,Spiriti E.,Taruggi C.,Vilucchi E.,Valente P.,Variola A.
Abstract
Abstract
During 2022 data taking (Run III) PADME searched for a resonant production and a visible decay of the X17 particle into e+e-. A precise knowledge within 1% uncertainty of the number of positrons was required for the observation. To that purpose, an array of 2 × 6 Timepix3 (total of 512 × 1536 pixels) hybrid pixel detectors operated in data-streaming mode with ToA resolution of 1.56 ns for every pixel was employed. Two methods for data acquisition were developed. A frame-based method, integrating the number of hits for each individual pixel for a predefined period of time served for monitoring the beam conditions and to provide a rough estimation of the beam distribution and number of positrons. A data streaming mode exploiting the nanosecond time resolution of Timepix3 detector was used for precise characterization of the transverse beam profile and the distribution of the incident positrons within each bunch of ∼ 200 ns duration.
Subject
Mathematical Physics,Instrumentation