# Femtosecond coherence dynamics of exciton–polaritons

**Authors:** Haoyuan Jia, Junhui Cao, Fei Chen, Fangying Peng, Yihui Li, Yihan Xu, Leizhu Chen, Ziyu Ye, Xianyan Zhao, Shian Zhang, Jietai Jing, Hongxing Xu, Zhanghai Chen, Tim Byrnes, Hui Li, Alexey Kavokin, Jian Wu

PMC · DOI: 10.1093/nsr/nwaf493 · National Science Review · 2025-11-19

## TL;DR

The paper studies how laser light transfers coherence to exciton–polaritons, revealing how their quantum properties can be controlled.

## Contribution

The study introduces a method to visualize femtosecond coherence transfer dynamics in exciton–polariton systems.

## Key findings

- Resonant polaritons preserve laser coherence on femtosecond timescales.
- Non-resonant polaritons at high excitation lack phase coherence from the pump.
- A coupled oscillator model explains the delayed non-resonant polaritons.

## Abstract

Exciton–polaritons perform as ideal carriers of macroscopic quantum coherence, which can be potentially manipulated through precisely shaping the driving laser field. However, the connection of the coherence properties between the pumping laser and the strongly coupled light-and-matter system is studied to a lesser extent. In this paper, we visualize the femtosecond dynamics of coherence transfer from the driving laser field to the resonantly excited exciton–polariton by an interferometric measurement. The resonant polaritons can effectively preserve the coherence of the pumping laser field in femtosecond timescales. At a high excitation strength, non-resonant polaritons appear at higher energies delayed by several picoseconds, without the phase coherence from the pump, which is understood by a coupled oscillator model. Our results offer the possibility of regulating the polariton coherence by finely shaping the external pump laser fields.

## Full-text entities

- **Chemicals:** ZnO (MESH:D015034), quartz (MESH:D011791), EPs (-)
- **Mutations:** G2021013002L

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12789000/full.md

## References

23 references — full list in the complete paper: https://tomesphere.com/paper/PMC12789000/full.md

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Source: https://tomesphere.com/paper/PMC12789000