# Long-lived spin polarization in n-doped MoSe$_2$ monolayers

**Authors:** Markus Schwemmer, Philipp Nagler, Andreas Hanninger, Christian, Sch\"uller, and Tobias Korn

arXiv: 1706.01802 · 2017-09-05

## TL;DR

This study demonstrates long-lived spin polarization in n-doped MoSe₂ monolayers, revealing potential for valleytronic applications by transferring polarization to resident carriers and analyzing their spin dynamics.

## Contribution

It provides the first observation of long-lived spin polarization of resident carriers in n-doped MoSe₂ monolayers using time-resolved Kerr rotation.

## Key findings

- Long-lived Kerr signal in n-doped MoSe₂ attributed to resident carrier spin polarization
- Absence of long-lived spin polarization in undoped MoSe₂
- Stable spin polarization under in-plane magnetic fields

## Abstract

Transition metal dichalcogenide monolayers are highly interesting for potential valleytronic applications due to the coupling of spin and valley degrees of freedom and valley-selective excitonic transitions. However, ultrafast recombination of excitons in these materials poses a natural limit for applications, so that a transfer of polarization to resident carriers is highly advantageous. Here, we study the low-temperature spin-valley dynamics in nominally undoped and n-doped MoSe$_2$ monolayers using time-resolved Kerr rotation. In the n-doped MoSe$_2$, we find a long-lived component of the Kerr signal which we attribute to the spin polarization of resident carriers. This component is absent in the nominally undoped MoSe$_2$. The long-lived spin polarization is stable under applied in-plane magnetic fields. Spatially resolved measurements allow us to determine an upper boundary for the electron spin diffusion constant in MoSe$_2$.

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/1706.01802/full.md

## References

38 references — full list in the complete paper: https://tomesphere.com/paper/1706.01802/full.md

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Source: https://tomesphere.com/paper/1706.01802