# Ultra-fast electric field controlled spin-fluctuations in the Hubbard   model

**Authors:** Nagamalleswararao Dasari, Martin Eckstein

arXiv: 1904.00098 · 2020-04-14

## TL;DR

This paper investigates how intense electric field pulses can rapidly alter spin and charge fluctuations in the Hubbard model, revealing a transient switch from antiferromagnetic to ferromagnetic correlations driven by non-thermal electron distributions.

## Contribution

It demonstrates a novel mechanism where electric fields induce anisotropic momentum occupation changes, leading to immediate spin fluctuation responses in a correlated electron system.

## Key findings

- Electric pulses cause anisotropic momentum redistribution.
- Transient ferromagnetic correlations emerge from antiferromagnetic states.
- Spin fluctuations respond instantaneously to single-particle changes.

## Abstract

Highly intense electric field pulses can move the electronic momentum occupation in correlated metals over large portions of the Brillouin zone, leading to phenomena such as dynamic Bloch oscillations. Using the non-equilibrium fluctuation-exchange approximation for the two-dimensional Hubbard model, we study how such non-thermal electron-distributions drive collective spin and charge fluctuations. Suitable pulses can induce a highly anisotropic modification of the occupied momenta, and the corresponding spin dynamics results in a transient change from antiferromagnetic to anisotropic ferromagnetic correlations. To good approximation this behavior is understood in terms of an instantaneous response of the spin fluctuations to the single-particle properties, opposite to the conventional time-scale separation between spin and electron dynamics.

## Full text

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## Figures

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## References

36 references — full list in the complete paper: https://tomesphere.com/paper/1904.00098/full.md

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Source: https://tomesphere.com/paper/1904.00098