Rutgers, The State University of New Jersey
Ronald Gilman mostly deals with Nuclear physics, Particle physics, Nucleon, Proton and Electron. His research integrates issues of Momentum transfer and Deep inelastic scattering in his study of Nuclear physics. His studies in Particle physics integrate themes in fields like Elastic scattering and Scattering.
His Nucleon study incorporates themes from Spectrometer and Asymmetry. The various areas that Ronald Gilman examines in his Proton study include Hydrogen, Exotic atom, Atomic physics and Strong interaction. His Atomic physics research includes themes of Range, Polarization and Polarimeter.
The scientist’s investigation covers issues in Nuclear physics, Particle physics, Atomic physics, Proton and Scattering. Nuclear physics is closely attributed to Polarization in his work. His Particle physics study combines topics from a wide range of disciplines, such as Deep inelastic scattering and Photodisintegration.
His Atomic physics research is multidisciplinary, relying on both Momentum transfer, Electron, Baryon and Momentum. His work deals with themes such as Electron scattering, Exotic atom and Strong interaction, which intersect with Proton. In his study, Inelastic scattering is inextricably linked to Muon, which falls within the broad field of Scattering.
His main research concerns Nuclear physics, Scattering, Proton, Particle physics and Atomic physics. Ronald Gilman has researched Nuclear physics in several fields, including Polarization and Asymmetry. The study incorporates disciplines such as Helium, Electron and Helicity in addition to Scattering.
His biological study spans a wide range of topics, including Amplitude and Compton scattering, Photon. As part of one scientific family, Ronald Gilman deals mainly with the area of Atomic physics, narrowing it down to issues related to the Lattice QCD, and often Resonance. His study explores the link between Nucleon and topics such as Momentum transfer that cross with problems in Angular momentum.
Ronald Gilman mainly focuses on Nuclear physics, Scattering, Proton, Asymmetry and Nucleon. Lepton is closely connected to Particle physics in his research, which is encompassed under the umbrella topic of Nuclear physics. His Scattering research focuses on Electron and how it connects with Transverse beam, Excited state, Helium and Amplitude.
His Nucleon study combines topics in areas such as Momentum transfer, Polarization and Angular momentum. He interconnects Compton scattering and Quantum chromodynamics in the investigation of issues within Quark. Ronald Gilman combines subjects such as Atomic physics and Charge radius with his study of Elastic scattering.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
G(E(p))/G(M(p)) ratio by polarization transfer in e-->p --> ep-->
M. K. Jones;K. A. Aniol;F. T. Baker;J. Berthot.
Physical Review Letters (2000)
Measurement of the Neutron Radius of 208Pb Through Parity Violation in Electron Scattering
S. Abrahamyan;Z. Ahmed;H. Albataineh;K. Aniol.
Physical Review Letters (2012)
Basic instrumentation for Hall A at Jefferson Lab
J. Alcorn;B. D. Anderson;K. A. Aniol;J. R M Annand.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment (2004)
Probing Cold Dense Nuclear Matter
R. Subedi;R. Shneor;P. Monaghan;B. D. Anderson.
Measurement of G(Ep)/G(Mp) in (e)over-right-arrowp -> e(p)over-right-arrow to Q(2)=5.6 GeV2
Gayou O;Aniol Ka;Averett T;Benmokhtar F.
Physical Review Letters (2002)
Proton elastic form-factor ratios to Q**2 = 3.5-GeV**2 by polarization transfer
V. Punjabi;C. F. Perdrisat;K. A. Aniol;F. T. Baker.
Physical Review C (2005)
Precision Rosenbluth measurement of the proton elastic form factors.
I. A. Qattan;J. Arrington;R. E. Segel;X. Zheng.
Physical Review Letters (2005)
Muonic Hydrogen and the Proton Radius Puzzle
Randolf Pohl;Ronald Gilman;Gerald A. Miller;Krzysztof Pachucki.
Annual Review of Nuclear and Particle Science (2013)
Electromagnetic structure of the deuteron
Ronald A. Gilman;Ronald A. Gilman;Franz Gross;Franz Gross.
Journal of Physics G (2002)
Precision Measurements of the Nucleon Strange Form Factors at Q 2 ∼ 0.1 GeV 2
A. Acha;K. A. Aniol;D. S. Armstrong;J. Arrington.
Physical Review Letters (2007)
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