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Showing 1–6 of 6 results

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Measurement of the proton spin structure at long distances

Measurements of the proton’s spin structure in experiments scattering a polarized electron beam off polarized protons in regions of low momentum transfer squared test predictions from chiral effective field theory of the strong interaction.

X. Zheng
A. Deur
Z. W. Zhao
Research12 Apr 2021
Nature Physics

Volume: 17, P: 736-741
Lacustrine sedimentation patterns at the Northern Antarctic Peninsula and surroundings as a response to late Holocene and Modern Climate changes

Heitor Evangelista
Sergei Verkulich
Roman Gruber
ResearchOpen Access30 Dec 2024
Scientific Reports

Volume: 14, P: 1-15
Electron-beam energy reconstruction for neutrino oscillation measurements

Electron scattering measurements are shown to reproduce only qualitatively state-of-the-art lepton–nucleus energy reconstruction models, indicating that improvements to these particle-interaction models are required to ensure the accuracy of future high-precision neutrino oscillation experiments.

M. Khachatryan
A. Papadopoulou
S. Gardiner
Research24 Nov 2021
Nature

Volume: 599, P: 565-570
Probing the core of the strong nuclear interaction

High-energy electron scattering that can isolate pairs of nucleons in high-momentum configurations reveals a transition to spin-independent scalar forces at small separation distances, supporting the use of point-like nucleon models to describe dense nuclear systems.

A. Schmidt
J. R. Pybus
X. Zheng
Research26 Feb 2020
Nature

Volume: 578, P: 540-544
Probing high-momentum protons and neutrons in neutron-rich nuclei

Electron-scattering experiments reveal that the fraction of high-momentum protons in medium-to-heavy nuclei increases considerably with neutron excess, whereas that of high-momentum neutrons decreases slightly, in contrast to shell-model predictions.

M. Duer
O. Hen
Z. W. Zhao
Research13 Aug 2018
Nature

Volume: 560, P: 617-621
Modified structure of protons and neutrons in correlated pairs

Simultaneous high-precision measurements of the EMC effect and short-range correlated abundances for several nuclei reveal a universal modification of the structure of nucleons in short-range correlated neutron–proton pairs.

B. Schmookler
M. Duer
X. Zheng
Research20 Feb 2019
Nature

Volume: 566, P: 354-358