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Main Authors: Alderete, C. Huerta, Srivastava, Anubhav Kumar, Madhusudhana, Bharath Hebbe, Sornborger, Andrew T.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.10418
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author Alderete, C. Huerta
Srivastava, Anubhav Kumar
Madhusudhana, Bharath Hebbe
Sornborger, Andrew T.
author_facet Alderete, C. Huerta
Srivastava, Anubhav Kumar
Madhusudhana, Bharath Hebbe
Sornborger, Andrew T.
contents We investigate the response of a Ramsey interferometric quantum sensor based on a frustrated, three-spin system (a Kitaev trimer) to a classical time-dependent field (signal). The system eigenspectrum is symmetric about a critical point, $|\vec{b}| = 0$, with four of the spectral components varying approximately linearly with the magnetic field and four exhibiting a nonlinear dependence. Under the adiabatic approximation and for appropriate initial states, we show that the sensor's response to a zero-mean signal is such that below a threshold, $|\vec{b}| < b_\mathrm{th}$, the sensor does not respond to the signal, whereas above the threshold, the sensor acts as a detector that the signal has occurred. This thresholded response is approximately omnidirectional. Moreover, when deployed in an entangled multisensor configuration, the sensor achieves sensitivity at the Heisenberg limit. Such detectors could be useful both as stand-alone units for signal detection above a noise threshold and in two- or three-dimensional arrays, analogous to a quantum bubble chamber, for applications such as particle track detection and long-baseline telescopy.
format Preprint
id arxiv_https___arxiv_org_abs_2507_10418
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Thresholded Quantum Sensing with a Frustrated Kitaev Trimer
Alderete, C. Huerta
Srivastava, Anubhav Kumar
Madhusudhana, Bharath Hebbe
Sornborger, Andrew T.
Quantum Physics
We investigate the response of a Ramsey interferometric quantum sensor based on a frustrated, three-spin system (a Kitaev trimer) to a classical time-dependent field (signal). The system eigenspectrum is symmetric about a critical point, $|\vec{b}| = 0$, with four of the spectral components varying approximately linearly with the magnetic field and four exhibiting a nonlinear dependence. Under the adiabatic approximation and for appropriate initial states, we show that the sensor's response to a zero-mean signal is such that below a threshold, $|\vec{b}| < b_\mathrm{th}$, the sensor does not respond to the signal, whereas above the threshold, the sensor acts as a detector that the signal has occurred. This thresholded response is approximately omnidirectional. Moreover, when deployed in an entangled multisensor configuration, the sensor achieves sensitivity at the Heisenberg limit. Such detectors could be useful both as stand-alone units for signal detection above a noise threshold and in two- or three-dimensional arrays, analogous to a quantum bubble chamber, for applications such as particle track detection and long-baseline telescopy.
title Thresholded Quantum Sensing with a Frustrated Kitaev Trimer
topic Quantum Physics
url https://arxiv.org/abs/2507.10418