Related papers: Non-equilibrium Coupling of a Quartz Resonator to Ions for Penning-Trap Fast Resonant Detection

Non-equilibrium Coupling of a Quartz Resonator to Ions for Penning-Trap Fast Resonant Detection

URL: http://arxiv.org/abs/2103.13067v1
Date: Wed, 24 Mar 2021 10:35:41 GMT
Title: Non-equilibrium Coupling of a Quartz Resonator to Ions for Penning-Trap Fast Resonant Detection
Authors: Joaqu\'in Berrocal, Steffen Lohse, Francisco Dom\'inguez, Manuel J. Guti\'errez, Francisco J. Fern\'andez, Michael Block, Juan J. Garc\'ia-Ripoll, Daniel Rodr\'iguez
Abstract summary: coherent coupling between a quartz electro-mechanical resonator at room temperature and trapped ions in a 7-tesla Penning trap has been demonstrated. The signals arising from the coupling remain for integration times in the orders of seconds. A resolving power $nu_+/Delta nu_+=2.4times107$ has been reached in single measurements.
Score: 0.10118253437732933
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The coherent coupling between a quartz electro-mechanical resonator at room temperature and trapped ions in a 7-tesla Penning trap has been demonstrated for the first time. The signals arising from the coupling remain for integration times in the orders of seconds. From the measurements carried out, we demonstrate that the coupling allows detecting the reduced-cyclotron frequency ($\nu_+$) within times below 10~ms and with an improved resolution compared to conventional electronic detection schemes. A resolving power $\nu_+/\Delta \nu_+=2.4\times10^{7}$ has been reached in single measurements. In this publication we present the first results, emphasizing the novel features of the quartz resonator as fast non-destructive ion-trap detector together with different ways to analyze the data and considering aspects like precision, resolution and sensitivity.

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