AION/Magis

Medipix3 Demonstration and understanding of near ideal detector performance for 60 & 80 keV electrons

Authors:

JA Mir, R Clough, R MacInnes, C Gough, R Plackett, IAN Shipsey, H Sawada, I MacLaren, R Ballabriga, D Maneuski, V O'Shea, D McGrouther, ANGUS Kirkland

Abstract:

In our article we report first quantitative measurements of imaging performance for the current generation of hybrid pixel detector, Medipix3, as direct electron detector. Utilising beam energies of 60 & 80 keV, measurements of modulation transfer function (MTF) and detective quantum efficiency (DQE) have revealed that, in single pixel mode (SPM), energy threshold values can be chosen to maximize either the MTF or DQE, obtaining values near to, or even exceeding, those for an ideal detector. We have demonstrated that the Medipix3 charge summing mode (CSM) can deliver simultaneous, near ideal values of both MTF and DQE. To understand direct detection performance further we have characterized the detector response to single electron events, building an empirical model which can predict detector MTF and DQE performance based on energy threshold. Exemplifying our findings we demonstrate the Medipix3 imaging performance, recording a fully exposed electron diffraction pattern at 24-bit depth and images in SPM and CSM modes. Taken together our findings highlight that for transmission electron microscopy performed at low energies (energies <100 keV) thick hybrid pixel detectors provide an advantageous and alternative architecture for direct electron imaging

Quantum Sensors for the Hidden Sector (QSHS) - A Summary of Our First Year!

Authors:

Ian Bailey, Bhaswati Chakraborty, Gemma Chapman, Ed Daw, Ling Hao, Edward Hardy, Edward Laird, Peter Leek, John Gallop, Gianluca Gregori, John March-Russell, Phil Meeson, Clem Mostyn, Yuri Pashkin, Searbhan O Peatain, Mitch Perry, Michele Piscitelli, Edward Romans, Subir Sarkar, Ningqiang Song, Mahesh Soni, Paul Smith, Boon-Kok Tan, Stephen West, Stafford Withington

Search for pair-produced higgsinos decaying via Higgs or 𝒁 bosons to final states containing a pair of photons and a pair of 𝒃-jets with the ATLAS detector

Physics Letters B Elsevier

Authors:

Alan Barr, Daniela Bortoletto, Federico Celli, Min Chen, Eimear Conroy, Amanda Cooper-Sarkar, Maxence Draguet, Gregor Eberwein, James Frost, Elizabeth Gallas, Claire Gwenlan, Christopher Hays, Brian Huffman, Simon Koch, Zhenlong Li, Koichi Nagai, Luka Nedic, Richard Nickerson, Eleonora Rossi, Alessandro Ruggiero, Elisabeth Schopf, Ian Shipsey, Iza Veliscek, Georg Viehhauser, Yajing Wei, Anthony Weidberg, Siyu Yan

Abstract:

A search is presented for the pair production of higgsinos 𝜒˜ in gauge-mediated supersymmetry models, where the lightest neutralinos 𝜒˜ 0 1 decay into a light gravitino 𝐺˜ either via a Higgs ℎ or 𝑍 boson. The search is performed with the ATLAS detector at the Large Hadron Collider using 139 fb−1 of proton–proton collisions at a centre-of-mass energy of √ 𝑠 = 13 TeV. It targets final states in which a Higgs boson decays into a photon pair, while the other Higgs or 𝑍 boson decays into a 𝑏𝑏¯ pair, with missing transverse momentum associated with the two gravitinos. Search regions dependent on the amount of missing transverse momentum are defined by the requirements that the diphoton mass should be consistent with the mass of the Higgs boson, and the 𝑏𝑏¯ mass with the mass of the Higgs or 𝑍 boson. The main backgrounds are estimated with data-driven methods using the sidebands of the diphoton mass distribution. No excesses beyond Standard Model expectations are observed and higgsinos with masses up to 320 GeV are excluded, assuming a branching fraction of 100% for 𝜒˜ 0 1 → ℎ𝐺˜. This analysis excludes higgsinos with masses of 130 GeV for branching fractions to ℎ𝐺˜ as low as 36%, thus providing complementarity to previous ATLAS searches in final states with multiple leptons or multiple 𝑏-jets, targeting different decays of the electroweak bosons.

Sensor Compendium

Office of Scientific and Technical Information (OSTI)

Authors:

M Artuso, et al.

Technical design of the phase I Mu3e experiment

Authors:

K Arndt, H Augustin, P Baesso, N Berger, F Berg, C Betancourt, D Bortoletto, A Bravar, K Briggl, D vom Bruch, A Buonaura, F Cadoux, C Chavez Barajas, H Chen, K Clark, P Cooke, S Corrodi, A Damyanova, Y Demets, S Dittmeier, P Eckert, F Ehrler, D Fahrni, L Gerritzen, J Goldstein, D Gottschalk, C Grab, R Gredig, A Groves, J Hammerich, U Hartenstein, U Hartmann, H Hayward, A Herkert, G Hesketh, S Hetzel, M Hildebrandt, Z Hodge, A Hofer, Qh Huang, S Hughes, L Huth, Dm Immig, T Jones, M Jones, H-C Kästli, M Köppel, P-R Kettle, M Kiehn, S Kilani

Abstract:

The Mu3e experiment aims to find or exclude the lepton flavour violating decay $\mu \rightarrow eee$ at branching fractions above $10^{-16}$. A first phase of the experiment using an existing beamline at the Paul Scherrer Institute (PSI) is designed to reach a single event sensitivity of $2\cdot 10^{-15}$. We present an overview of all aspects of the technical design and expected performance of the phase~I Mu3e detector. The high rate of up to $10^{8}$ muon decays per second and the low momenta of the decay electrons and positrons pose a unique set of challenges, which we tackle using an ultra thin tracking detector based on high-voltage monolithic active pixel sensors combined with scintillating fibres and tiles for precise timing measurements.