Related papers: Single-domain Bose condensate magnetometer achieves energy resolution per bandwidth below $\hbar$

Single-domain Bose condensate magnetometer achieves energy resolution per bandwidth below $\hbar$

URL: http://arxiv.org/abs/2108.11716v2
Date: Fri, 28 Jan 2022 18:01:54 GMT
Title: Single-domain Bose condensate magnetometer achieves energy resolution per bandwidth below $\hbar$
Authors: Silvana Palacios Alvarez, Pau Gomez, Simon Coop, Roberto Zamora-Zamora, Chiara Mazzinghi and Morgan W. Mitchell
Abstract summary: We show how a single domain spinor achieves Bose-Einstein condensate, detected by non-destructive Faraday-rotation probing. We measure the condensate volume, spin coherence time, and readout noise, and use phase-space methods, backed by 3+1D mean-field simulations. We predict that other Bose-condensed alkalis, especially the antiferromagnetic $23mathrmNa$, can further improve the energy resolution of this method.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We present a magnetic sensor with energy resolution per bandwidth $E_R < \hbar$. We show how a $^{87}\mathrm{Rb}$ single domain spinor Bose-Einstein condensate, detected by non-destructive Faraday-rotation probing, achieves single shot dc magnetic sensitivity of $72(8)~\mathrm{fT}$ measuring a volume $V= 1091(30)~\mu\mathrm{m}^3$ for $3.5~\mathrm{s}$, and thus $E_R = 0.075(16)~\hbar$. We measure experimentally the condensate volume, spin coherence time, and readout noise, and use phase-space methods, backed by 3+1D mean-field simulations, to compute the spin noise. Contributions to the spin noise include one-body and three-body losses and shearing of the projection noise distribution, due to competition of ferromagnetic contact interactions and quadratic Zeeman shifts. Nonetheless, the fully-coherent nature of the single-domain, ultracold two-body interactions allows the system to escape the coherence vs.~density trade-off that imposes an energy resolution limit on traditional spin-precession sensors. We predict that other Bose-condensed alkalis, especially the antiferromagnetic $^{23}\mathrm{Na}$, can further improve the energy resolution of this method.

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