Four-photon imaging with thermal light

Feng Wen; Xinxin Xue; Xun Zhang; Chenzhi Yuan; Jia Sun; Jianping Song; Yanpeng Zhang

doi:10.7566/JPSJ.83.104402

Four-photon imaging with thermal light

Feng Wen
, Xinxin Xue
, Xun Zhang
, Chenzhi Yuan
, Jia Sun
, Jianping Song
, Yanpeng Zhang

Faculty of Electronic and Information Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

In a near-field four-photon correlation measurement, ghost imaging with classical incoherent light is investigated. By applying the Klyshko advanced-wave picture, we consider the properties of four-photon spatial correlation and find that the fourth-order spatial correlation function can be decomposed into multiple lower-order correlation functions. On the basis of the spatial correlation properties, a proof-of-principle four-photon ghost imaging is proposed, and the effect of each part in a fourth-order correlation function on imaging is also analyzed. In addition, the similarities and differences among ghost imaging by fourth-, second-, and third-order correlations are also discussed. It is shown that the contrast and visibility of fourth-order correlated imaging are improved signifi cantly, while the resolution is unchanged. Such studies can be very useful in better understanding multi photon interference and multi-channel correlation imaging.

Original language	English
Article number	104402
Journal	Journal of the Physical Society of Japan
Volume	83
Issue number	10
DOIs	https://doi.org/10.7566/JPSJ.83.104402
State	Published - 15 Oct 2014

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title = "Four-photon imaging with thermal light",

abstract = "In a near-field four-photon correlation measurement, ghost imaging with classical incoherent light is investigated. By applying the Klyshko advanced-wave picture, we consider the properties of four-photon spatial correlation and find that the fourth-order spatial correlation function can be decomposed into multiple lower-order correlation functions. On the basis of the spatial correlation properties, a proof-of-principle four-photon ghost imaging is proposed, and the effect of each part in a fourth-order correlation function on imaging is also analyzed. In addition, the similarities and differences among ghost imaging by fourth-, second-, and third-order correlations are also discussed. It is shown that the contrast and visibility of fourth-order correlated imaging are improved signifi cantly, while the resolution is unchanged. Such studies can be very useful in better understanding multi photon interference and multi-channel correlation imaging.",

author = "Feng Wen and Xinxin Xue and Xun Zhang and Chenzhi Yuan and Jia Sun and Jianping Song and Yanpeng Zhang",

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doi = "10.7566/JPSJ.83.104402",

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TY - JOUR

T1 - Four-photon imaging with thermal light

AU - Wen, Feng

AU - Xue, Xinxin

AU - Zhang, Xun

AU - Yuan, Chenzhi

AU - Sun, Jia

AU - Song, Jianping

AU - Zhang, Yanpeng

PY - 2014/10/15

Y1 - 2014/10/15

N2 - In a near-field four-photon correlation measurement, ghost imaging with classical incoherent light is investigated. By applying the Klyshko advanced-wave picture, we consider the properties of four-photon spatial correlation and find that the fourth-order spatial correlation function can be decomposed into multiple lower-order correlation functions. On the basis of the spatial correlation properties, a proof-of-principle four-photon ghost imaging is proposed, and the effect of each part in a fourth-order correlation function on imaging is also analyzed. In addition, the similarities and differences among ghost imaging by fourth-, second-, and third-order correlations are also discussed. It is shown that the contrast and visibility of fourth-order correlated imaging are improved signifi cantly, while the resolution is unchanged. Such studies can be very useful in better understanding multi photon interference and multi-channel correlation imaging.

AB - In a near-field four-photon correlation measurement, ghost imaging with classical incoherent light is investigated. By applying the Klyshko advanced-wave picture, we consider the properties of four-photon spatial correlation and find that the fourth-order spatial correlation function can be decomposed into multiple lower-order correlation functions. On the basis of the spatial correlation properties, a proof-of-principle four-photon ghost imaging is proposed, and the effect of each part in a fourth-order correlation function on imaging is also analyzed. In addition, the similarities and differences among ghost imaging by fourth-, second-, and third-order correlations are also discussed. It is shown that the contrast and visibility of fourth-order correlated imaging are improved signifi cantly, while the resolution is unchanged. Such studies can be very useful in better understanding multi photon interference and multi-channel correlation imaging.

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U2 - 10.7566/JPSJ.83.104402

DO - 10.7566/JPSJ.83.104402

M3 - 文章

AN - SCOPUS:84920756145

SN - 0031-9015

VL - 83

JO - Journal of the Physical Society of Japan

JF - Journal of the Physical Society of Japan

IS - 10

M1 - 104402

ER -

Four-photon imaging with thermal light

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