Related papers: Circumventing Detector Backaction on a Quantum Cyclotron

Circumventing Detector Backaction on a Quantum Cyclotron

URL: http://arxiv.org/abs/2008.01898v4
Date: Thu, 10 Dec 2020 02:20:42 GMT
Title: Circumventing Detector Backaction on a Quantum Cyclotron
Authors: Xing Fan and Gerald Gabrielse
Abstract summary: Detector backaction can be completely evaded when the state of a one-electron quantum cyclotron is detected. This limits the accuracy with which the electron magnetic moment can be determined to test the standard model's most precise prediction.
Score: 5.419077350924331
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Detector backaction can be completely evaded when the state of a one-electron quantum cyclotron is detected, but it nonetheless significantly broadens the quantum-jump resonance lineshapes from which the cyclotron frequency can be deduced. This limits the accuracy with which the electron magnetic moment can be determined to test the standard model's most precise prediction. A steady state solution to a master equation, the first quantum calculation for the open quantum cyclotron system, illustrates a method to circumvent the detection backaction upon the measured frequency.

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