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Synchronization effects on rest frame energy and momentum densities in the proton

Adam Freese, Gerald A. Miller

2023Physical review. D/Physical review. D.14 citationsDOIOpen Access PDF

Abstract

We obtain two-dimensional relativistic densities and currents of energy and momentum in a proton at rest. These densities are obtained at surfaces of fixed light front time, which physically corresponds to using an alternative synchronization convention. Mathematically, this is done using tilted light front coordinates, which consist of light front time and ordinary spatial coordinates. In this coordinate system, all 16 components of the energy-momentum tensor (EMT) obtain clear physical interpretations, and the nine Galilean components reproduce results from standard light front coordinates. We find angular modulations in several densities that are absent in the corresponding instant form results, which are explained as optical effects arising from using fixed light front time when motion is present within the target. Additionally, transversely polarized spin-half targets exhibit an energy dipole moment---which evaluates to $\ensuremath{-}1/4$ for all targets if the Belinfante EMT is used, but which is target dependent and vanishes for pointlike fermions if the asymmetric EMT is instead used.

Topics & Concepts

PhysicsFront (military)Center of mass (relativistic)Angular momentumMomentum (technical analysis)DipoleSynchronization (alternating current)Classical mechanicsAntisymmetric relationRest frameRotation (mathematics)Quantum electrodynamicsQuantum mechanicsEnergy–momentum relationGeometryTopology (electrical circuits)Mathematical physicsRedshiftEconomicsGalaxyFinanceCombinatoricsMathematicsMeteorologyQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesDark Matter and Cosmic Phenomena