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Alexandra Berger6/11/25, 1:30 PM
A description of the start of a 2Pi0 channel partial wave analysis in order to identify f2(1275), with a focus on motivation and theory due to very preliminary nature of research
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Cecilia Zimmerli6/11/25, 1:40 PM
The ongoing Muon-proton Scattering Experiment (MUSE) is motivated by the proton radius puzzle, which arose due to recent discrepancies in measurements of the proton radius across various scattering and spectroscopy methods. MUSE aims to extract proton radius measurements from simultaneous electron-proton and muon-proton scattering. A beam of muons, electrons, and pions is fired at a liquid...
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Leonel Martinez (Florida International University)6/11/25, 1:50 PM
Proton anti-proton production has been used to search for possible intermediate systems in various experiments. Evidence for a potential narrow resonance in the ppbar system is scarce, while there is no evidence for a wide resonance in the ppbar system in either photoproduction or electroproduction.
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Previous high statistic photoproduction analyses have focused on the extraction of... -
Taylor Powell6/11/25, 2:00 PM
This presentation outlines ongoing research using lattice QCD to compute the γπ → πω scattering amplitude with J^P = 1^+ quantum numbers, enabling the determination of the b1 → γπ coupling as a function of photon virtuality. This process probes the internal structure of the b1(1235) meson, a hadronic resonance whose internal dynamics are of significant interest. The transition is...
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Zeyu Zhang (Tsinghua University)6/11/25, 2:10 PM
ALERT-SRC experiment, which will be carried out in this summer, employs the ALERT (A Low Energy Recoil Tracker) detector, installed inside the central region of CLAS12 in Hall B, to perform high-precision measurements of short-range correlation (SRC) effects in nuclei. The measurement is carried out with a 6.4 GeV electron beam under quasi-elastic kinematics, focusing on the exclusive...
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Paul Anderson6/11/25, 2:20 PM
When it comes to extracting actual testable predictions from theoretical models, perturbative QFT is one of the most successful frameworks, with Feynman diagrams being one of the key bookkeeping devices. However, as one increases the loop order, it becomes a daunting task to overcome the increasingly rampant subdivergences that appear. The BPHZ renormalization scheme provides a way of...
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Junaid Saif Khan (Southern Methodist University)6/11/25, 2:50 PM
Understanding the small-x regime of Quantum Chromodynamics (QCD) is crucial for advancing high-energy nuclear physics. In this non-linear domain--where gluon densities become large and saturation effects emerge--traditional perturbative frameworks, such as the Parton Model, become inadequate. Instead, the Dipole Model, which is better suited for describing non-perturbative dynamics at small-x,...
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Zichen Yin6/11/25, 3:00 PM
Precision measurements of semi-inclusive deep-inelastic scattering (SIDIS) cross sections provide critical insights into quark fragmentation and hadronization from a fixed nucleon target. The upcoming "R-SIDIS" experiment at Jefferson Lab Hall C aims to investigate the probability of quark hadronization into a charged pion. A surprising feature of this process is the significant production of...
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Chhetra Lama (University of New Hampshire)6/11/25, 3:10 PM
Efficient use and conservation of Liquid Helium (LHe) is essential for the sustainability of polarized target experiments in nuclear physics. This poster presents the development of a novel helium recapture system integrated with quantum technology at the UNH DNP Lab, enabling significant recovery and reuse of LHe. In parallel, we explore the enhancement of tensor polarization in spin-1...
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Felix Touchte Codjo6/11/25, 3:20 PM
The ALERT experiment aims to advance our understanding of nuclear structure by precisely measuring Deeply Virtual Compton Scattering (DVCS) and Tagged EMC effects on 4He and 2H. These measurements are crucial for extracting nuclear Generalized Parton Distributions (GPDs) and challenging current interpretations of the EMC effect. Achieving these goals relies on the synergistic combination of...
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Kawtar El Bouzaidi6/11/25, 3:30 PM
In an era where artificial intelligence has become a collaborator in scientific discovery, we present AION — the Artificial Intelligence Oracle of Neutrinos — a hybrid deep learning system designed to unravel hidden patterns in neutrino oscillation data across multiple experiments. Trained on real-world and simulated datasets from detectors such as Super-Kamiokande, DUNE, and JUNO, AION...
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Charlie Velasquez (University of York)6/11/25, 3:40 PM
Meson spectroscopy is the study of the properties and production and decay mechanisms of the mesons for the purpose of classification. Additionally, it is desirable to expand the spectrum of known mesons and to test the predictions of quantum chromodynamics, the theory of the strong force. Different types of mesons can be produced through high-energy electron-proton interactions where a meson...
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Bianca Gualtieri (Florida International University)6/11/25, 3:50 PM
Cascade hyperons, despite being discovered over half a century ago, remain considerably less studied compared to the non-strange $\Delta$ and $N$ baryons. This disparity is primarily due to the energetic challenges associated with producing two strange quarks. The objective of this analysis is to provide the first cross-section measurements for the ground state cascade, $\Xi^-$, using electron...
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