High-Precision Measurement of the Proton’s Atomic Mass
F. Heiße, F. Köhler-Langes, S. Rau, J. Hou, S. Junck, A. Kracke, A. Mooser, W. Quint, S. Ulmer, G. Werth, K. Blaum, and S. Sturm
Index: 10.1103/PhysRevLett.119.033001
Full Text: HTML
Abstract
We report on the precise measurement of the atomic mass of a single proton with a purpose-built Penning-trap system. With a precision of 32 parts per trillion our result not only improves on the current CODATA literature value by a factor of 3, but also disagrees with it at a level of about 3 standard deviations.
Latest Articles:
Hippocampal Spike-Timing Correlations Lead to Hexagonal Grid Fields
2017-07-19
[10.1103/PhysRevLett.119.038101]
Nonuniform Currents and Spins of Relativistic Electron Vortices in a Magnetic Field
2017-07-18
[10.1103/PhysRevLett.119.030401]
Neural Decoder for Topological Codes
2017-07-18
[10.1103/PhysRevLett.119.030501]
Constraining Relativistic Generalizations of Modified Newtonian Dynamics with Gravitational Waves
2017-07-18
[10.1103/PhysRevLett.119.031102]
Natural Covariant Planck Scale Cutoffs and the Cosmic Microwave Background Spectrum
2017-07-18
[10.1103/PhysRevLett.119.031301]