# Thermal light edge enhancement ghost imaging of phase objects

**Authors:** Hanquan Song, Zhidan Yuan, Yuhang Ren, Dayu Zhao, Zili Zhang, Zhiyuan, Zheng, and Lu Gao

arXiv: 1908.01118 · 2019-08-06

## TL;DR

This paper demonstrates a novel method for edge enhancement ghost imaging of phase objects using thermal light and orbital angular momentum filters, revealing classical correlations without Bell inequality violation.

## Contribution

It introduces an experimental setup utilizing thermal light and OAM phase filters for edge enhancement ghost imaging of phase objects, highlighting classical correlations.

## Key findings

- Edge enhanced ghost images achieved via second-order intensity correlation.
- System does not violate Bell inequality, confirming classical nature.
- Simulation confirms effectiveness of OAM-based phase object imaging.

## Abstract

We propose a experimental scenario of edge enhancement ghost imaging of phase objects with nonlocal orbital angular momentum (OAM) phase filters. Spatially incoherent thermal light is separated into two daughter beams, the test and reference beams, in which the detected objects and phase filters are symmetrically placed,respectively. The results of simulation experiment prove that the edge enhanced ghost images of phase objects can be achieved through the second-order light field intensity correlation measurement owing to the OAM correlation characteristics. Further simulation results demonstrate that the edge enhanced ghost imaging system dose not violate a Bell-type inequality for the OAM subspace, which reveals the classical nature of the thermal light correlation.

## Full text

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## Figures

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## References

27 references — full list in the complete paper: https://tomesphere.com/paper/1908.01118/full.md

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Source: https://tomesphere.com/paper/1908.01118