March 3, 2026Open Access

Factor of 1000 suppression of the depolarization rate in ultracold thulium collisions

Key Points

Depolarization in thulium collisions is reduced by a factor of 1000, enhancing its potential for quantum applications.
The suppression is achieved through an optimally adjusted magnetic field, showcasing a significant advancement in this area.
Observational analysis reveals the role of the Zeeman manifold in stabilizing ultracold thulium atoms under specific conditions.
The findings support the practical use of thulium in quantum simulations, yet further exploration is needed to fully understand the mechanisms.

Abstract

Lanthanides are nowadays extensively used to investigate the properties of strongly correlated matter. Nevertheless, exploiting the Zeeman manifold of a lanthanide atom ground state is challenging due to the unavoidable presence of depolarization collisions. Here, we demonstrate that in the case of the thulium atom, it is possible to suppress this depolarization by a factor of 1000 with a carefully tuned magnetic field, thus opening the way for the efficient use of the Zeeman manifold in quantum simulations.

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Anonymous et al. (Mon,) studied this question.

synapsesocial.com/papers/69a76619badf0bb9e87dbad2 https://doi.org/https://doi.org/10.1103/k1mv-1y2j

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