0000000000187341

AUTHOR

E Wursten

showing 2 related works from this author

A Revised Experimental Upper Limit on the Electric Dipole Moment of the Neutron

2015

We present for the first time a detailed and comprehensive analysis of the experimental results that set the current world sensitivity limit on the magnitude of the electric dipole moment (EDM) of the neutron. We have extended and enhanced our earlier analysis to include recent developments in the understanding of the effects of gravity in depolarizing ultracold neutrons (UCN); an improved calculation of the spectrum of the neutrons; and conservative estimates of other possible systematic errors, which are also shown to be consistent with more recent measurements undertaken with the apparatus. We obtain a net result of $d_\mathrm{n} = -0.21 \pm 1.82 \times10^{-26}$ $e$cm, which may be inter…

Nuclear and High Energy PhysicsPhysics - Instrumentation and DetectorsFOS: Physical sciencesMagnitude (mathematics)01 natural sciencesResonance (particle physics)High Energy Physics - ExperimentHigh Energy Physics - Experiment (hep-ex)Quantum mechanicsPaul-Scherrer InstituteCesium atom0103 physical sciences[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]NeutronLimit (mathematics)010306 general physicsPhysicsConservation lawmagnetic-momentMagnetic moment010308 nuclear & particles physicsInstrumentation and Detectors (physics.ins-det)QC0793Atomic-Mercury magnetometerElectric dipole momentresonanceQuantum electrodynamicsUltracold neutronsParticle Physics - Experiment
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Sympathetic cooling schemes for separately trapped ions coupled via image currents

2021

Cooling of particles to mK-temperatures is essential for a variety of experiments with trapped charged particles. However, many species of interest lack suitable electronic transitions for direct laser cooling. We study theoretically the remote sympathetic cooling of a single proton with laser-cooled $^9$Be$^+$ in a double-Penning-trap system. We investigate three different cooling schemes and find, based on analytical calculations and numerical simulations, that two of them are capable of achieving proton temperatures of about 10 mK with cooling times on the order of 10 s. In contrast, established methods such as feedback-enhanced resistive cooling with image-current detectors are limited …

Atomic Physics (physics.atom-ph)Other Fields of PhysicsFOS: Physical sciencesGeneral Physics and Astronomynucl-exphysics.atom-ph530Physics - Atomic PhysicsNuclear Physics - Experimentddc:530Physics::Atomic PhysicsNuclear Experiment (nucl-ex)Präzisionsexperimente - Abteilung BlaumNuclear ExperimentNew Journal of Physics
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