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Elementary laser-less quantum logic operations with (anti-)protons in Penning traps
arXiv
Authors: Diana Nitzschke, Marius Schulte, Malte Niemann, Juan M. Cornejo, Stefan Ulmer, Ralf Lehnert, Christian Ospelkaus, Klemens Hammerer
Year
2019
Paper ID
14335
Status
Preprint
Abstract Read
~2 min
Abstract Words
168
Citations
N/A
Abstract
Static magnetic field gradients superimposed on the electromagnetic trapping potential of a Penning trap can be used to implement laser-less spin-motion couplings that allow the realization of elementary quantum logic operations in the radio-frequency regime. An important scenario of practical interest is the application to g-factor measurements with single (anti-)protons to test the fundamental charge, parity, time reversal (CPT) invariance as pursued in the BASE collaboration [Smorra et al., Eur. Phys. J. Spec. Top. 224, 3055-3108 (2015), Smorra et al., Nature 550, 371-374 (2017), Schneider et al., Science 358, 1081-1084 (2017)]. We discuss the classical and quantum behavior of a charged particle in a Penning trap with a superimposed magnetic field gradient. Using analytic and numerical calculations, we find that it is possible to carry out a SWAP gate between the spin and the motional qubit of a single (anti-)proton with high fidelity, provided the particle has been initialized in the motional ground state. We discuss the implications of our findings for the realization of quantum logic spectroscopy in this system.
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- It adds a 2019 reference point for readers tracking recent quantum research.
- Static magnetic field gradients superimposed on the electromagnetic trapping potential of a Penning trap can be used to implement laser-less spin-motion couplings that allow...
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