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Ana Clara Moreira (University of São Paulo)
The ν-Angra experiment operates a surface-level, ton-scale water
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Cherenkov detector at the Angra-II nuclear power plant. The successful
operation of the detector has provided a validated platform for reactor
antineutrino detection and non-intrusive reactor monitoring. Building on
this operational experience, we investigate the feasibility of a second
experimental phase based on a... -
Diane Markoff (North Carolina Central University)
In 2017, the COHERENT collaboration reported the first measurement of CEvNS using a sodium-doped cesium-iodide detector, CsI[Na], with subsequent analysis improvements and additional data that led to more precise results. The COHERENT collaboration is currently developing a cryogenic undoped CsI detector with expected lower energy thresholds, increased light yield at temperatures ranging from...
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Dr Evgeny Akhmedov
Title: A New Approach to Detect Low-Energy Antineutrinos via Resonant Atomic–Nuclear Transitions
Authors: Evgeny Akhmedov, Thierry Lasserre, Leonardo Maturi
Abstract: We present a new method to detect low-energy antineutrinos based on resonant inverse orbital electron capture on nuclei. When the neutrino energy matches a discrete atomic–nuclear transition the cross section is strongly...
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Diego Aristizabal (Santa Maria Universidad , Valparaiso)
In this talk, I will discuss the relative importance of axial-current event rates in CEvNS measurements. After discussing a few aspects of axial form factors, I will present results for event rates in heavy and light nuclei detector setups. In doing so, I will point out that among the available material targets C3F8 provides the best-case scenario for axial-current event rate measurements....
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Edgar Sanchez Garcia (MPIK)
CONUS+ is an experiment installed at the Leibstadt nuclear power plant (KKL), Switzerland, at 20.7 m from the 3.6 GW core, operating four point-contact HPGe detectors (3.74 kg total, ~160 eVee threshold). It has recently achieved the first detection of CEνNS of reactor antineutrinos on germanium nuclei in the fully coherent regime.
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A thorough understanding of the background is crucial for a... -
Liliane McCallin (CEA - Université Paris Saclay)
The NUCLEUS experiment aims to detect Coherent Elastic Neutrino-Nucleus Scattering (CEvNS) using reactor antineutrinos from the Chooz nuclear power plant, with ultra-low-threshold CaWO4 cryogenic targets. To achieve the ambitious particle background goal of the order of 100 dru in the CEvNS region of interest (20-200 eV), a multi‑stage rejection strategy is employed, combining passive...
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Michela Sestu (INFN)
Low-energy neutrino scattering with nuclei is a fundamental tool for studying weak interactions and nuclear structure. Although the dominant mechanism at these energies is Coherent Elastic Neutrino-Nucleus Scattering (CE$\nu$NS), inelastic processes via charged or neutral currents can also occur, leading to the excitation of low-energy nuclear states. The investigation of these interactions is...
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Dario Piani (MHKP)
The detection of coherent elastic neutrino-nucleus scattering (CEνNS) opens up new opportunities for neutrino physics within and beyond the standard model (BSM) of elementary particles. The first detection of CEνNS at nuclear reactors by the CONUS+ experiment allows very valuable tests of BSM scenarios in a low momentum transfer regime. Among them, Non Standard Interactions (NSIs), light...
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Daniele Delicato (Université Grenoble Alpes, CNRS, Institut Néel)
BULLKID is a detector design to detect rare and low threshold events, based on a monolithic array of particle absorbers sensed by multiplexed Kinetic Inductance Detectors (KIDs). The goal of this approach is to provide background identification and rejection by creating a fully active segmented structure and by applying fiducialization techniques.
A 20 g prototype, consisting of 60 voxels...
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Evgeny Akhmedov (MPIK)
After a brief introduction to the general aspects of coherence in quantum physics, I will discuss and critically assess the possibilities of coherent neutrino scattering on macroscopic scales. The issues to be addressed include the scattering of intermediate-energy neutrinos with very small momentum transfers, neutrino scattering on crystals, Mössbauer-type neutrino scattering experiments, and...
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Suraj Prakash (IFIC (University of Valencia - CSIC))
We demonstrate that measurements of Coherent Elastic Neutrino-Nucleus Scattering (CEνNS) at spallation sources are valuable probes of muon-decay physics. Using COHERENT data we derive the first direct constraint on the Michel parameters governing the $\bar\nu_\mu$ energy distribution. We also discuss future sensitivities and assess the implications for the Lorentz structure of the interactions...
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Koichiro Yasuda (UCLA)
The reactor antineutrino spectrum below 1.8 MeV is inaccessible to inverse beta decay (IBD) measurements, and although reactor CE$\nu$NS has now been observed, the energy-dependent spectral shape in this regime remains known only from theoretical predictions. CE$\nu$NS offers the most promising experimental handle on this gap. We present a flux-model-independent reconstruction of the sub-IBD...
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Corentin Doutre (GNOI)
CEνNS and dark matter experiments aim to detect interactions producing low-energy nuclear recoils using cryogenic detectors with excellent energy resolution (~5 eV) and low thresholds (~20 eV). However, these detectors currently lack a proper calibration method to probe new physics. The CRAB (Calibrated Recoils for Accurate Bolometry) experiment aims to calibrate cryogenic detectors with pure...
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Insoo Lee (Institute for Basic Science)
The Neutrino Elastic-scattering Observation with NaI(Tl) (NEON) experiment is designed to detect CEνNS using reactor electron antineutrinos. The NEON detector, consisting of an array of six ultra-high-light-yield NaI(Tl) crystals with a total mass of 16.7 kg, is located in the tendon gallery of Unit 6 at the Hanbit Nuclear Power Plant in Yeonggwang, South Korea, positioned 23.7 meters from the...
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Bhaskar Dutta (Department of Physics and Astronomy)
In this talk, I will discuss the possibility of producing $\mathcal{O}(10)$ MeV photons from dark matter (DM) scattering off nuclei at stopped-pion experiments. The final-state photon can arise from two processes: (i) $ \text{DM} + N \rightarrow \text{DM} + N + \gamma$, corresponding to $2 \to 3$ inelastic nuclear scattering, and (ii) inelastic nuclear excitation, $ \text{DM} + N \rightarrow...
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Sergio de la Cruz Alzaga (IFIC (CSIC-UV), Spain)
We study the sensitivity of COHERENT-like experiments to non-standard contributions within the most general low-energy effective field theory that includes not only the light SM fields but also additional right-handed Dirac neutrinos, the so-called $\nu$WEFT framework.
Making use of the full freedom of EFT's, we include flavor-general New Physics effects in neutrino production (pion and...
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Joshua Queen (Duke University)
Low-energy charged-current scattering of electron neutrinos on argon is the dominant interaction channel for observing neutrinos from supernovae with DUNE. It has been demonstrated that the theoretical uncertainty on the cross section in this unobserved energy region imparts significant bias on supernova spectral parameter reconstruction. COHERENT operated COH-Ar-10, a 24 kg single-phase...
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Matteo Cadeddu (INFN)
Low-energy neutrino-nucleus interactions are entering a precision era in which coherent elastic scattering, charged-current absorption, beta decay and electron capture should be treated as complementary probes of weak nuclear dynamics. CEvNS measures the diagonal neutral-current response of the nucleus and provides an approximately flavor-blind handle on the active neutrino flux....
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Thomas Rink (IAP, KIT)
The first observation of coherent elastic neutrino–nucleus scattering (CE$\nu$NS) at a nuclear reactor has opened a new experimental avenue for Standard Model tests and searches for physics beyond it, while also providing a novel probe of reactor neutrino production. Reactor-based CE$\nu$NS experiments offer a largely unexplored opportunity to address long-standing questions in reactor...
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Dr Matthias Meier (MPIK Heidelberg)
The main challenge for coherent elastic neutrino-nucleus scattering (CEvNS) measurements is the development and optimization of detectors capable of observing very low-energy nuclear recoils. Depending on the target material, either scaling to sufficiently large active masses or achieving ultra-low detection thresholds presents the dominant limitation. The latter is particularly critical for...
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Riccardo Pavarani (INFN Cagliari)
Coherent elastic neutrino–nucleus scattering (CE$\nu$NS) provides a unique window into electroweak physics and potential extensions of the Standard Model. New data from a germanium detector collected by the COHERENT collaboration enable the most precise measurement of CE$\nu$NS to date.
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In this talk, I present an analysis based on these data, focusing on their impact on key electroweak... -
David Lhuillier (CEA Saclay)
The CRAB (Calibrated Recoil for Accurate Bolometry) experiment leverages radiative neutron capture to calibrate the response of cryogenic detectors to nuclear recoils. This method inherently provides high measurement precision in the low-energy range (100–1000 eV) of interest for CEvNS event detection. In this presentation, we describe the dedicated experimental setup installed at the TRIGA...
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Romain Faure (IP2I)
The RICOCHET collaboration aims to observe coherent elastic neutrino-
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nucleus scattering (CEνNS) to reveal deviations in the electroweak sector from the Standard Model of particle physics. The setup is located 8.8m from the core of the research reactor at the Institut Laue-Langevin (Grenoble, France). The RICOCHET experiment employs germanium-based cryogenic calorimeters, called CryoCube,... -
Dr Christian Buck (MPIK Heidelberg)
This introductory lecture will discuss coherent elastic neutrino–nucleus scattering (CEvNS), highlighting its advantages and limitations compared to other neutrino detection channels. The scientific motivation and its relevance to a range of research topics will be outlined. In addition, suitable neutrino sources for CEvNS detection will be presented, and the main experimental techniques used...
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Dr Alexis Aguilar-Arevalo (Instituto de Ciencias Nucleares UNAM)
We present a formalism for describing atomic collision cascades in crystalline silicon
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and germanium, based on a second-order solution to the Lindhard integral equation.
We analyze in detail how the traditional Lindhard formula is only applicable for energies
above 10 keV. Below this threshold, the omission of atomic binding energy, kinematic effects,
and the breakdown of electronic... -
Lorenzo Valla (Austrian Academy of Sciences)
The NUCLEUS experiment aims to measure CE$\nu$NS of reactor antineutrinos on tungsten nuclei. To do so, NUCLEUS deploys gram-scale CaWO$_\text{4}$ crystals as cryogenic calorimeters with an ultra-low nuclear recoil energy threshold of O(10) eV. The detectors are instrumented with Transition Edge Sensors (TESs), operated at ~10 mK, to read out the phonon signal directly.
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The experiment is... -
Shengchao Li (Westlake University)
Low-energy calibration of keV-scale nuclear recoils near detector threshold is a shared and critical requirement across CE$\nu$NS experiments. In XENONnT, it underpins two key physics goals: the measurement of solar $^8$B neutrinos via CE$\nu$NS, and searches for light dark matter. In this talk, we will present the first Yttrium-Beryllium photoneutron-source calibration campaign in the XENONnT...
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Janina Hakenmüller (Marietta Blau Institute for particle physics)
For a successful CEvNS detection a low detector noise threshold is crucial to be able to see a signal. The threshold depends factors such as the detector design and performance, as well as the understanding and the suppression of the noise from the electronics chain and outside factors. Small noise spikes and fluctuations can have a significant impact on the sensitivity of the experiment at...
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Louis Bailly-Salins (CNRS - LPSC Grenoble)
The RICOCHET experiment aims to measure CEνNS induced by reactor antineutrinos produced by the research nuclear reactor of the Institut Laue-Langevin (ILL) in Grenoble, France. The collaboration employs an array of 42-g germanium cryogenic calorimeters operated at ~15 mK. These calorimeters are instrumented with neutron-transmutation-doped thermistors for the phonon readout and aluminum...
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Ana Zaalishvili (Duke University)
Lead, the most commonly used shielding material from gamma radiation, still lacks a firm inclusive electron-neutrino charged-current cross-section measurement. The COHERENT collaboration indirectly measured this cross section by hunting for the secondary neutrons produced from the interaction with Eljen Cell and Lead Neutrino Cubes detectors. Surprisingly, the combined measurement was almost a...
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Nicola Cargioli (Istituto Nazionale di Fisica Nucleare - Sezione di Cagliari)
Neutrinos provide a uniquely clean and sensitive probe of the Standard Model (SM), enabling precision tests of electroweak interactions in regimes complementary to high-energy colliders. Their weakly interacting nature, combined with the growing diversity of experimental data, makes neutrino scattering a powerful tool to explore both standard and non-standard properties.
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In this talk, I... -
Edgar Sanchez Garcia (MPIK)
The CONUS+ experiment observed coherent elastic neutrino-nucleus scattering (CEνNS) of reactor antineutrinos in the fully coherent regime during its first run in 2025, using four 1 kg point-contact HPGe detectors deployed at 21 m from the reactor core of the Leibstadt nuclear power plant in Switzerland. Building on this result, the second CONUS+ campaign presents updated results with...
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Gonzalo Martínez Lema (IFIC, CSIC-UV)
The European Spallation Source (ESS), with its high-intensity neutrino flux, provides an exceptional environment for next-generation CEνNS measurements. In this contribution, we present two proposed noble-element time projection chamber (TPC) experiments for CEνNS detection at the ESS: GanESS and COLINA.
The TPC technology provides two main benefits: the use of electroluminescence (EL)...
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Mr Anirban Majumdar (Indian Institute of Science Education and Research Bhopal)
In this talk, I will discuss our recent work on the implications of the neutrino fog in dark matter direct detection experiments, motivated by the recent observation of coherent elastic neutrino--nucleus scattering (CE$\nu$NS) from solar $^8$B neutrinos by the XENONnT collaboration. Neutrino fluxes, primarily of astrophysical origin, constitute an irreducible background for dark matter...
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Yuri Efremenko (University of Tennessee)
The COHERENT collaboration operates a suite of neutrino experiments at the 2 MW Spallation Neutron Source (ORNL), currently the world’s most powerful puled neutrino source. In this talk, I will provide an overview of past and ongoing experiments, with a focus on recent results. I will also discuss future plans for the deployment of next-generation detectors.
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Dimitrios Papoulias (University of Hamburg)
We exploit the complementary energy ranges of accelerator and reactor CEνNS measurements to perform a combined analysis of COHERENT germanium and CONUS+ data. This synergy enhances sensitivity to key Standard Model and detector-response parameters by reducing degeneracies among electroweak, nuclear, and quenching effects. In particular, the measured recoil spectra allow us to constrain the...
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Ms Greeshma Chandrabhanu (Institute of Physics, Academia Sinica, Taipei 11529, Taiwan & Department of Physics, Central University of South Bihar, Gaya 824236, India)
Germanium ionization detectors with their unique features and diverse applications in fundamental research are novel candidates for studies of neutrino electromagnetic interactions ($\nu EM$) as well as coherent elastic neutrino-nucleus scattering (CE$\nu$NS). The TEXONO collaboration aims at progressively improving the sensitivities towards $\nu EM$, CE$\nu$NS and physics beyond the Standard...
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Emma van Nieuwenhuizen (Duke University)
Ge-mini, a member of the COHERENT suite of detectors, is an array of high-purity germanium semiconductor detectors designed to measure coherent elastic neutrino-nucleus scattering (CEvNS). In this weak neutral-current interaction, the nuclear form factor is primarily sensitive to the neutron spatial distribution and causes a loss of coherence at higher momentum transfers, which appears as a...
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Dacheng Xu (Columbia University)
Coherent elastic neutrino–nucleus scattering (CEvNS) of solar neutrinos is a fundamental Standard Model process and an irreducible background for next-generation dark matter searches, including weakly interacting massive particles (WIMPs), commonly referred to as the "neutrino fog". With its large exposure and ultra-low background, the XENONnT experiment has reached the sensitivity required to...
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Nicolás Avalos (LPNHE - IN2P3 - CNRS)
The Coherent Neutrino-Nucleus Interaction Experiment (CONNIE) has been using Skipper-CCDs with the aim of detecting CEvNS near the Angra-2 reactor since 2021. These detectors have demonstrated exceptional sensitivity to low-energy ionization signals thanks to their sub-electron resolution and ultra-low noise performance. Recent analyses with reactor data have produced competitive limits on...
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Nicholas Meredith (North Carolina State University)
The COHERENT collaboration performed a reanalysis of the data collected at Oak Ridge National Laboratory's Spallation Neutron Source with its high-purity germanium detector array, Ge-mini. Reanalysis of the "Campaign-2" dataset was motivated by the successful analysis of the "Campaign-3" dataset; which extended coherent elastic neutrino–nucleus scattering (CEvNS) measurements in Ge-mini to a...
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Simone Quitadamo (Università degli Studi di Milano - Bicocca)
Core-collapse Supernovae (SN) release nearly all their binding energy as neutrinos. RES-NOVA tackles a major challenge in astroparticle physics by introducing a novel detection approach using cryogenic detectors made from ultra-pure archaeological lead (Pb). The innovation lies in exploiting Coherent Elastic Neutrino-Nucleus Scattering (CEvNS), which offers a cross-section ~10⁴ times larger...
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Dr Kelsey Oliver-Mallory (Imperial College London)
LUX-ZEPLIN (LZ) is a dark matter experiment centred on a 7-tonne dual-phase xenon detector, operating nearly a mile underground at the Sanford Underground Research Facility, in South Dakota, USA. The LZ Collaboration has recently completed the analysis of a 5.7 tonne-years exposure to search for light dark matter with masses of 3-9 GeV/c$^2$ in the presence of coherent elastic neutrino-nucleus...
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Justin Skweres (University of Tennessee, Knoxville)
The COHERENT Collaboration at Oak Ridge National Laboratory operates a
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variety of neutrino detectors, each with the aim of providing a better understanding
of neutrinos through Coherent Elastic Neutrino Nucleus Scattering (CEvNS),
making use of the high neutrino flux from the Spallation Neutron Source for their
measurements. One such detector, a 550kg heavy water Cherenkov detector,... -
Mattia Atzori Corona (INFN Tor Vergata, Roma II (IT))
The NUCLEUS experiment aims to measure coherent elastic neutrino–nucleus scattering (CEνNS) at unprecedented low nuclear recoil energies using gram‑scale cryogenic calorimeters operated at the Chooz nuclear power plant. With energy thresholds at the O(10 eV) scale, NUCLEUS will probe CEνNS at extremely low momentum transfer, opening a new window for precision tests of the Standard Model and...
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Tatiana Le Bellec (GNOI)
Coherent elastic neutrino nucleus scattering (CEvNS) was first measured experimentally by the COHERENT experiment in 2017 and is currently being studied by many experiments all around the world.
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The Ricochet experiment, located at 8.8 m from the reactor core at the Institut Laue-Langevin in Grenoble, aims to measure CEvNS with high precision using germanium cryogenic detectors that... -
Litao YANG (Tsinghua University)
The RECODE (Reactor neutrino COherent scattering Detection Experiment) adopts PPC germanium detectors to measure the CEvNS process of reactor neutrinos. The experimental site is located at the Sanmen Nuclear Power Plant (NPP) in Zhejiang Province, China. In the RECODE project, two experimental sites at different distances from the reactor core will be set up to carry out joint measurements....
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Fei Gao (Tsinghua University)
The RELICS (REactor neutrino LIquid xenon Coherent Scattering, RELICS) experiment aims at reactor CEvNS detection using an LXeTPC. At a baseline of 25 meters, RELICS aims to precisely measure the CEvNS cross-section to understand fundamental properties of neutrinos and search for new physics beyond the Standard Model, such as axions. In this talk, I will introduce the status of the RELICS...
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RUPAK MAHAPATRA (Texas A&M University)
The MINER experiment used a set of sub-100 eV sapphire detectors operated at a 1 MW TRIGA reactor at Texas A&M University to search for reactor CENNS and axion/axion-like particles (ALP). The experiment experienced high levels of low energy excess (LEE) below 500 eV and was unable to achieve the required significance for detection. The experiment is currently being moved to the High-Flux...
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Qing Lin (University of Science and Technology of China)
PandaX-4T is a multi-tonne liquid-xenon experiment searching for rare low-energy interactions, operating with a 3.7-tonne active target at the China Jinping Underground Laboratory (2400 m.w.e. overburden). In 2024, PandaX-4T reported the first indication of coherent elastic neutrino–nucleus scattering (CE𝜈NS) from solar B8 neutrinos using combined Run1 and Run2 data, with a significance of...
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Elspeth Cudmore (University of Toronto)
RICOCHET is a reactor CE$\nu$NS experiment situated 8.8 m from the core of the 58 MW research reactor at the Institut Laue-Langevin (ILL) in Grenoble, France. The experiment aims to measure the sub-keV$_\text{nr}$ cross section of CE$\nu$NS with low-energy recoils from reactor antineutrinos using arrays of individually instrumented cryogenic calorimeters. The primary RICOCHET payload (the...
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Yulai Shi (MPIK)
CONUS+ has recently achieved the first detection of coherent elastic neutrino-nucleus scattering (CEνNS) of reactor antineutrinos on germanium nuclei in the fully coherent regime, and is now entering a precision phase. The dominant uncertainty in the first measurement was the energy scale, contributing 14% to the signal prediction uncertainty, motivating a dedicated sub-keV calibration...
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Natalie Jones (Duke University)
The COHERENT Collaboration uses stopped-pion neutrinos from the Spallation Neutron Source at Oak Ridge National Lab to study low-energy neutrino-nucleus interactions on various targets. Neutrino-induced neutrons (NINs) are a contributing background for detector subsystems deployed in Neutrino Alley, generated from charged current neutrino interactions on high-Z shielding materials like lead....
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Gaby BRENOT (LPSC)
The Ricochet experiment aims to measure Coherent Elastic Neutrino-Nucleus Scattering (CE$\nu$NS) induced by reactor antineutrinos using an array of 18 42-gram cryogenic germanium calorimeters equipped with simultaneous phonon and ionisation readouts for nuclear/electronic recoil discrimination, operated at $\sim$15 mK at the Institut Laue-Langevin (ILL). Cosmic-ray muons can produce secondary...
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Elisabetta Bossio (CEA Paris-Saclay)
The NUCLEUS experiment aims to detect nuclear recoils at the O(10 eV) scale induced by coherent elastic neutrino–nucleus scattering (CE$\nu$NS) using gram-scale CaWO$_4$ cryogenic calorimeters. Its uniquely low energy threshold provides direct sensitivity to the low-energy part of the reactor neutrino spectrum, setting it apart within the current CE$\nu$NS experimental landscape.
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Following a... -
Jane O'Reilly (Duke University)
The COHERENT collaboration is deploying a tonne-scale sodium-iodide (NaI) detector, dubbed the NaI neutrino experiment at the Tonne scale [NaIvETe], at the Spallation Neutron Source at Oak Ridge National Laboratory. COHERENT has deployed a suite of neutrino detectors to measure low-energy neutrino-nucleus interactions on various target nuclei. With the deployment of NaIvETe, we plan to measure...
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Johan Rathsman (Lund University)
I will present new results on the hypothesised X17 particle, interpreted as a light Z´-boson, based on data from Coherent Elastic neutrino Nucleus Scattering (CEvNS) experiments at reactors and spallation sources as well as IceCube data on non standard neutrino interactions (NSI). The X17 has been introduced to explain observations of nuclear transitions such as p Li7 -> Be8* -> Be8 e+e- made...
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Gabrielle Soum-Sidikov (Université Lyon 1, CNRS, IP2I, UMR 5822, Villeurbanne, France)
The Ricochet experiment aims to detect Coherent Elastic Neutrino-Nucleus Scattering (CE$\nu$NS) from antineutrinos produced at the Institut Laue-Langevin where it was deployed at the end of 2023, 8.8 meters away from the reactor core. The current CE$\nu$NS payload is an array of eighteen 42 g germanium cryogenic calorimeters, operated at 17 mK in a cryostat. To mitigate and reject external...
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Ms Ana Isabel Colon Rivera (Duke University)
The COHERENT collaboration has measured coherent elastic neutrino-nucleus scattering (CEvNS) on CsI, argon, and most recently germanium. While efforts are underway to obtain precision measurements of CEvNS on NaI and argon with new tonne-scale detectors, the opportunity of measuring CEvNS on other liquid noble targets with the existing CENNS-10 detector is now present.
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A CEvNS measurement on... -
Patrick Huber (Virginia Tech)
I will present a paleo-detector dark matter sensitivity analysis based on a calorimetric readout, in which the number of stable lattice vacancies produced by each nuclear recoil is used as a per-event observable complementary to the track length. The combination with track length provides an event-by-event proxy for |dE/dx| and hence for
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the recoiling nuclear species and will discuss... -
Brianna Ryan (GNOI)
As nuclear-powered submarine technology spreads, it presents a unique safeguards challenge: the construction and operating history of these reactors is classified, and IAEA inspectors are not allowed to board the submarine. One proposed technology that works within these extreme limitations is neutrino detectors. While neutrino detectors can be designed independently of the reactor and can be...
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