P1.001 |
High-Energy Neutrino follow-up of first gravitational wave event GW 150914 Véronique Van Elewyck, APC / Université Paris Diderot, France
on behalf of ANTARES, IceCube and LIGO/Virgo collaborations [view abstract pdf]
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P1.002 |
Particle identification in KM3NeT/ARCA Thomas Heid, ECAP - FAU Erlangen-Nürnberg, Germany
on behalf of KM3NeT collaboration [view abstract pdf]
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P1.003 |
Lowering the CUORE energy threshold Simone Copello, Università di Genova, Italy
on behalf of CUORE collaboration [view abstract pdf]
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P1.004 |
Neutrino physics with DARWIN Mohamed Lotfi Benabderrahmane, New York University Abu Dhabi, UAE
on behalf of DARWIN collaboration [view abstract pdf]
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P1.005 |
CHIPS R&D: water attenuation measurements Jenny Thomas, University College London, UK on behalf of CHIPS collaboration [view abstract pdf]
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P1.006 |
Status of KIMS-NaI experiments Jungsic Park, Institute for Basic Science, South Korea
on behalf of KIMS-NaI collaboration [view abstract pdf]
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P1.007 |
A prototype for a neutrino high pressure TPC Asher Kaboth, Royal Holloway University of London, UK [view abstract pdf]
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P1.008 |
Performance evaluation of the 50 cm Box-and-Line PMT for Hyper-Kamiokande Daisuke Fukuda, Okayama University, Japan [view abstract pdf]
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P1.009 |
The underwater test of new photo-detectors for Hyper-Kamiokande Fumimasa Muto, Nagoya University, Japan on behalf of Hyper-Kamiokande collaboration [view abstract pdf]
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P1.010 |
Mechanical characteristics of new photodetectors and covers for Hyper-Kamiokande Shoei Nakayama, Kamioka Observatory ICRR University of Tokyo, Japan on behalf of Hyper-Kamiokande collaboration [view abstract pdf]
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P1.011 |
JUNO underground facilities and construction status Xiaonan Li, Institute of High Energy Physics, China
on behalf of JUNO Collaboration [view abstract pdf]
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P1.012 |
The R&D of 20 inch MCP-PMTs for JUNO Sen Qian, Institute of High Energy Physics, China on behalf of MCP-PMT collaboration [view abstract pdf]
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P1.013 |
A highly-integrated receiver chip with an automatic baseline regulation for JUNO Pavithra Muralidharan, Forschungzentrum Jülich, Germany
on behalf of JUNO collaboration [view abstract pdf]
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P1.014 |
JUNO PMT system and prototyping test Zhimin Wang, IHEP, China
on behalf of JUNO collaboration [view abstract pdf]
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P1.015 |
Scattering length monitoring at the SNO+ detector Stefanie Langrock, Queen Mary University of London, UK
on behalf of SNO+ collaboration [view abstract pdf]
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P1.016 |
Benefits of Gd for high energy neutrinos Pablo Fernández Menéndez, UAM, Spain
on behalf of Super-Kamiokande collaboration [view abstract pdf]
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P1.017 |
Occulting light concentrators in liquid scintillator neutrino detectors Buizza Avanzini, CNRS/LLR, France [view abstract pdf]
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P1.018 |
Probing the Cherenkov and Scintillation Light Separation for Next-Generation Neutrino Detectors Javier Caravaca, UC Berkeley/LBNL, USA [view abstract pdf]
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P1.019 |
Neutrino physics with accelerator driven subcritical reactors Emilio Ciuffoli, IMP/CAS, China [view abstract pdf]
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P1.020 |
Neutrino telescopes with the deepest overburden: The Jinping neutrino experiment Linyan Wan, Tsinghua University, China [view abstract pdf]
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P1.021 |
Spectrometry of the Earth using neutrino oscillations Carsten Rott, Sungkyunkwan University, South Korea [view abstract pdf]
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P1.022 |
Prototype detection unit for the CHIPS experiment Maciej Pfutzner, University College London, UK
on behalf of CHIPS collaboration [view abstract pdf]
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P1.023 |
The protoDUNE single-phase detector and beam measurement program at CERN Thomas Kutter, Louisiana State University, USA
on behalf of DUNE collaboration [view abstract pdf]
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P1.024 |
Electron diffusion measurements in the ICARUS T600 detector Marta Torti, University of Pavia/INFN Pavia, Italy
on behalf of ICARUS collaboration [view abstract pdf]
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P1.025 |
Muon neutrino disappearance at NOvA analysis details Kirk Bays, Caltech, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.026 |
A search for sterile neutrinos at the NOvA far detector Gareth Kafka, Harvard University, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.027 |
Looking at two beams in the NOvA near detector Ryan Murphy, Indiana University, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.028 |
Charge current electron neutrino event identification in the NOvA detectors Alexander Radovic, College of William and Mary, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.029 |
NOvA results on muon neutrino disappearance Luke Vinton, University of Sussex, UK
on behalf of NOvA collaboration [view abstract pdf]
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P1.030 |
Electron neutrino appearance in NOvA Erika Catano-Mur, Iowa State University, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.031 |
Calibration in the NOvA detectors Diana Patricia Méndez, University of Sussex, UK
on behalf of NOvA collaboration [view abstract pdf]
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P1.032 |
The Convolutional Visual Network (CVN) algorithm and its applications to NOvA event identification and reconstruction Fernanda Psihas, Indiana University, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.033 |
Event reconstruction in NOvA Gavin Davies, Indiana University, USA
on behalf of NOvA collaboration [view abstract pdf]
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P1.034 |
Overview of the nuPRISM detector design Thomas Lindner, TRIUMF, Canada
on behalf of nuPRISM collaboration [view abstract pdf]
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P1.035 |
Search for muon neutrino disappearance at the OPERA experiment in the CNGS beam Budimir Klicek, Rudjer Boskovic Institute, Croatia
on behalf of OPERA collaboration [view abstract pdf]
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P1.036 |
Anti-neutrino beam direction and intensity measurement with the T2K on-axis near Detector Tatsuya Hayashino, Kyoto University, Japan
on behalf of T2K collaboration [view abstract pdf]
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P1.037 |
Estimating the pion and kaon contributions to the T2K neutrino beam Alasdair Knox, Lancaster University, UK
on behalf of T2K collaboration [view abstract pdf]
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P1.038 |
Recent T2K flux predictions with NA61/SHINE thin graphite target measurements Magdalena Posiadala-Zezula, University of Warsaw, Poland
on behalf of T2K and NA61/SHINE collaborations [view abstract pdf]
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P1.039 |
Muon neutrino and antineutrino selection in the tracker of the T2K off-axis near detector Pawel Przewlocki, National Centre for Nuclear Research, Poland
on behalf of T2K collaboration [view abstract pdf]
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P1.040 |
Improving T2K oscillation analyses using fiTQun: A new maximum-likelihood event reconstruction for Super-Kamiokande Andrew Missert, University of Colorado Boulder, USA
on behalf of T2K collaboration [view abstract pdf]
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P1.041 |
Muon antineutrino disappearance and electron antineutrino appearance searches at T2K Raj Shah, STFC, UK
on behalf of T2K collaboration [view abstract pdf]
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P1.042 |
A CCPi0 inclusive analysis at the T2K near detector Dave Shaw, Lancaster University, UK
on behalf of T2K collaboration [view abstract pdf]
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P1.043 |
Towards T2K neutrino flux predictions using the replica target measurements by NA61/SHINE Laura Zambelli, LAPP/CNRS/Université Savoie Mont Blanc, France
on behalf of T2K and NA61/SHINE collaborations [view abstract pdf]
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P1.044 |
Wire-cell tomographic event reconstruction for large LArTPCs Xin Qian, Brookhaven National Laboratory, USA [view abstract pdf]
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P1.045 |
Silicon photomultipliers characterization for future neutrino detectors Koun Choi, University of Hawaii at Manoa, USA [view abstract pdf]
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P1.046 |
Optimization of metallic magnetic calorimeters arrays with embedded Ho-163 for the ECHo experiment Christian Enss, Heidelberg University, Germany
on behalf of ECHo collaboration [view abstract pdf]
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P1.047 |
Development of transition edge sensors with rf-SQUID based multiplexing system for the HOLMES experiment Andrei Puiu, University of Milan-Bicocca, Italy
on behalf of HOLMES collaboration [view abstract pdf]
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P1.048 |
Commissioning of the KATRIN main spectrometer with an angular-selective photo-electron source Jan David Behrens, WWU Münster, Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.049 |
Background processes in the KATRIN main spectrometer Florian Fraenkle, Karlsruhe Institute of Technology (KIT), Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.050 |
Thermal properties of the KATRIN source section Moritz Hackenjos, Karlsruhe Institute of Technology (KIT), Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.051 |
The Windowless Gaseous Tritium Source (WGTS) for the KATRIN experiment Florian Heizmann, Karlsruhe Institute of Technology (KIT), Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.052 |
The condensed krypton source for the KATRIN experiment Philipp Chung-On Ranitzsch, University of Muenster, Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.053 |
Gaseous 83mKr generator based on 83Rb deposited in zeolite Jana Sentkerestiova, Nuclear Physics Institute of the CAS, v.v.i., Czech Republic
on behalf of KATRIN collaboration [view abstract pdf]
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P1.054 |
Tritium ion blocking and detection in the KATRIN experiment Manuel Klein, Karlsruhe Institute of Technology (KIT), Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.055 |
Energy calibration of the KATRIN experiment Oliver Rest, Westfälische Wilhelms-Universität Münster, Germany
on behalf of KATRIN collaboration [view abstract pdf]
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P1.056 |
Results from the Project 8 phase-1 cyclotron radiation emission spectroscopy detector Benjamin LaRoque, University of California, Santa Barbara, USA
on behalf of Project 8 collaboration [view abstract pdf]
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P1.057 |
Project 8: Towards a neutrino mass limit using the cyclotron radiation from tritium beta decays Noah Oblath, Pacific Northwest National Laboratory, USA
on behalf of Project 8 collaboration [view abstract pdf]
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P1.058 |
Development of the front-end board of a Xenon gas Time Projection Chamber at the AXEL neutrinoless double beta decay search experiment Shunsuke Tanaka, Kyoto University, Japan
on behalf of AXEL collaboration [view abstract pdf]
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P1.059 |
CALDER: Kinetic inductance light detectors to search for double beta decay Marco Vignati, INFN Roma, Italy
on behalf of CALDER collaboration [view abstract pdf]
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P1.060 |
Development of scintillating bolometer for 48Ca neutrinoless double beta decay search Konosuke Tetsuno, Osaka University, Japan
on behalf of CANDLES collaboration [view abstract pdf]
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P1.061 |
Pulse shape discrimination techniques for the COBRA experiment Stefan Zatschler, TU Dresden, Institute for Nuclear and Particle Physics, Germany
on behalf of COBRA collaboration [view abstract pdf]
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P1.062 |
The LUCIFER/CUPID-0 demonstrator: searching for the neutrinoless double-beta decay with Zn82Se scintillating bolometers Karoline Schaeffner, GSSI- Gran Sasso Science Institute, Italy
on behalf of CUPID collaboration [view abstract pdf]
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P1.063 |
The potential of discrimination methods in a high pressure xenon TPC for the search of the neutrinoless double-beta decay of Xe-136 Francisco Jose Iguaz Gutierrez, University of Zaragoza, Spain [view abstract pdf]
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P1.064 |
Preparation for KamLAND-Zen 800 Shingo Hayashida, Tohoku University, Japan
on behalf of KamLAND-Zen collaboration [view abstract pdf]
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P1.065 |
Delayed charge recovery discrimination of passivated surface alpha events in P-type point-contact detectors Julieta Gruszko, University of Washington, USA
on behalf of MAJORANA collaboration [view abstract pdf]
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P1.066 |
The SuperNEMO light injection and monitoring system Thibaud Le Noblet, LAPP / Université Savoie Mont-Blanc, France
on behalf of NEMO-3/SuperNEMO collaborations [view abstract pdf]
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P1.067 |
Radioassay program for nEXO – the next generation double beta decay experiment Hei-man Tsang, University of Alabama, USA
on behalf of nEXO collaboration [view abstract pdf]
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P1.068 |
Ba-ion extraction from a high pressure Xe gas for double-beta decay studies with nEXO Thomas Brunner, McGill University, Canada
on behalf of nEXO collaboration [view abstract pdf]
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P1.069 |
Photon detection in nEXO Fabrice Retiere, TRIUMF, Canada
on behalf of nEXO collaboration [view abstract pdf]
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P1.070 |
NuDot: A prototype directional liquid scintillator detector Lindley Winslow, MIT, USA
on behalf of NuDot collaboration [view abstract pdf]
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P1.071 |
SINGLE: single photon sensitive cryogenic light detectors Matteo Biassoni, INFN Milano Bicocca, Italy
on behalf of SINGLE collaboration [view abstract pdf]
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P1.072 |
Commissioning the SNO+ Detector Ian Coulter, University of Pennsylvania, USA
on behalf of SNO+ collaboration [view abstract pdf]
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P1.073 |
Pulse shape analysis techniques in liquid scintillator for the identification and suppression of radioactive backgrounds to neutrinoless double beta decay Jack Dunger, University of Oxford, UK
on behalf of SNO+ collaboration [view abstract pdf]
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P1.074 |
A new technique to load 130Te in liquid scintillator for neutrinoless double beta decay experiments Steven Biller, University of Oxford, UK
on behalf of SNO+ collaboration [view abstract pdf]
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P1.075 |
Radon mitigation strategy and results for the SuperNEMO experiment Xinran Liu, University College London, UK
on behalf of SuperNEMO collaboration [view abstract pdf]
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P1.076 |
The SuperNemo 82Se ββον-source-foils and their radiopurity measurement with the BiPo-3 detector Pia Loaiza, Laboratoire de l'Accelerateur Lineaire, LAL, CNRS, France
on behalf of SuperNEMO collaboration [view abstract pdf]
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P1.077 |
Cherenkov light identification in TeO2 crystals with Si low-temperature detectors Chiara Brofferio, Università degli Studi di Milano Bicocca and INFN, Italy [view abstract pdf]
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P1.078 |
The design of the JUNO veto system Haoqi Lu, Institute of High Energy Physics, Chinese Academy of Sciences, China
on behalf of JUNO collaboration [view abstract pdf]
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P1.079 |
Radioactivity evaluation and control for the JUNO detector components and materials Jie Zhao, Institute of High Energy Physics, Chinese Academy of Sciences, China
on behalf of JUNO collaboration [view abstract pdf]
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P1.080 |
Status of experiment NEUTRINO-4 search for sterile neutrino Anatolii Serebrov, Petersburg Nuclear Physics Institute, Russia
on behalf of NEUTRINO-4 collaboration [view abstract pdf]
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P1.081 |
Light yield and energy resolution studies for SoLid phase 1 Delphine Boursette, LAL University Paris Sud Orsay, France
on behalf of SoLid collaboration [view abstract pdf]
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P1.082 |
Antineutrino monitoring of spent nuclear fuel Vedran Brdar, JGU Mainz, Germany [view abstract pdf]
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P1.083 |
Results from the VIDARR near-field antineutrino detector at Wylfa Power Station Matthew Murdoch, University of Liverpool, UK [view abstract pdf]
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P1.084 |
VIDARR reactor antineutrino detector upgrade Yan-Jie Schnellbach, University of Liverpool, UK [view abstract pdf]
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P1.085 |
TPB thickness and Quantum Efficiency measurements for the new Icarus T600 light detection system in the SBN project Maura Spanu, Università di Pavia, Italy [view abstract pdf]
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P1.086 |
Performance study of the new light collection system for the ICARUS T600 detector Andrea Falcone, University of Texas Arlington, USA
on behalf of ICARUS collaboration [view abstract pdf]
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P1.087 |
Signal processing in the MicroBooNE LAr TPC Craig Thorn, Brookhaven National Laboratory, USA
on behalf of the MicroBooNE collaboration [view abstract pdf]
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P1.088 |
Light detection system simulations for SBND Diego Garcia-Gamez, University of Manchester, UK
on behalf of SBND collaboration [view abstract pdf]
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P1.089 |
Triggers and readout electronics for the STEREO experiment Victor Helaine, LPSC/UGA/CNRS, France
on behalf of STEREO collaboration [view abstract pdf]
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P1.090 |
Going low : measurement of the solar pp-neutrino flux with liquid scintillator detector Oleg Smirnov, JINR, Russia
on behalf of Borexino collaboration [view abstract pdf]
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P1.091 |
Low energy triggering for Hyper-Kamiokande Thomas Dealtry, Lancaster University, UK
on behalf of Hyper-Kamiokande collaboration [view abstract pdf]
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P1.092 |
Towards 14C-free liquid scintillator Timo Enqvist, University of Oulu, Finland [view abstract pdf]
|
P1.093 |
The DUNE 35-ton LArTPC prototype: Data acquisition, online software and monitoring Jonathan Davies, University of Sussex, UK
on behalf of DUNE collaboration [view abstract pdf]
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P1.094 |
The joint search for gravitational wave and low energy neutrino signals from core-collapse supernovae: Methodology and status report Maxim Gromov, SINP-MSU, Russia
on behalf of LIGO/VIRGO, IceCube, LVD, Borexino and KamLAND-Zen collaborations [view abstract pdf]
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P1.095 |
The KM3NeT multi-PMT digital optical module Ronald Bruijn, University of Amsterdam FOM/Nikhef, Netherlands on behalf of KM3NeT collaboration [view abstract pdf]
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