Nonexistence of the self-accelerating dipole and related questions
Physical Review D American Physical Society (APS) 89:12 (2014) 125006
Pulsed force sequences for fast phase-insensitive quantum gates in trapped ions
New Journal of Physics IOP Publishing 16:5 (2014) 053049
The fields and self-force of a constantly accelerating spherical shell
Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 470:2162 (2014)
Abstract:
We present a partial differential equation describing the electromagnetic potentials around a charge distribution undergoing rigid motion at constant proper acceleration, and obtain a set of solutions to this equation. These solutions are used to find the self-force exactly in a chosen case. The electromagnetic self-force for a spherical shell of charge of proper radius R undergoing rigid motion at constant proper acceleration a0 is, to high-order approximation, (2e2a0/R) ∑∞n=0 (a0R)2n((2n - 1)(2n + 1)2(2n + 3))-1, and this is conjectured to be exact. © 2013 The Author(s) Published by the Royal Society. All rights reserved.Reduced-order Abraham-Lorentz-Dirac equation and the consistency of classical electromagnetism
(2014)
Microwave control electrodes for scalable, parallel, single-qubit operations in a surface-electrode ion trap
Applied Physics B Springer Nature 114:1-2 (2014) 3-10