D
Daniel R. Phillips
Researcher at Ohio University
Publications - 213
Citations - 6047
Daniel R. Phillips is an academic researcher from Ohio University. The author has contributed to research in topics: Effective field theory & Nucleon. The author has an hindex of 47, co-authored 201 publications receiving 5205 citations. Previous affiliations of Daniel R. Phillips include University of Manchester & University of Bonn.
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Effective theory of theΔ(1232)resonance in Compton scattering off the nucleon
TL;DR: In this article, a new power-counting scheme for a chiral effective field theory of nucleons, pions, and Deltas was proposed, which extends chiral perturbation theory into the Delta-resonance region.
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Quantifying truncation errors in effective field theory
TL;DR: In this paper, a Bayesian approach for estimating truncation errors in perturbative calculations of quantum chromodynamics observables is adapted to expansions in effective field theory (EFT) by encoding expectations about the naturalness of these coefficients, providing a statistical interpretation of the standard EFT procedure where truncation error are estimated using the order-by-order convergence of the expansion.
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How Well Do We Know the Neutron-Matter Equation of State at the Densities Inside Neutron Stars? A Bayesian Approach with Correlated Uncertainties.
TL;DR: This work introduces a new framework for quantifying correlated uncertainties of the infinite-matter equation of state derived from chiral effective field theory (χEFT), and produces the first statistically robust uncertainty estimates for key quantities of neutron stars.
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Precision calculation of threshold π−d scattering, πN scattering lengths, and the GMO sum rule
Vadim Baru,Vadim Baru,Christoph Hanhart,M. Hoferichter,M. Hoferichter,Bastian Kubis,Andreas Nogga,Daniel R. Phillips,Daniel R. Phillips +8 more
TL;DR: Baru et al. as mentioned in this paper used chiral perturbation theory (ChPT) to calculate the π − d scattering length with an accuracy of a few percent, including isospin-violating corrections in both the two and three-body sectors.
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Using effective field theory to analyse low-energy Compton scattering data from protons and light nuclei
TL;DR: In this article, a two-parameter fit is performed on the Compton data up to omega(lab)=170 MeV and a new fit to the deuteron data.