X-ray parametric down-conversion at an XFEL

Nicholas J. Hartley; James Baxter; Scott Curtis; Okhura Daisuke; Aliaksei Halavanau; Abigail H. Carpenter; Janita Hussain; Taito Osaka; Norimasa Ozaki; Richard L. Sandberg; Sharon Shwartz; Kai Taketoshi; Naoki Yamagata; Siegfried H. Glenzer

doi:10.1364/OPTICA.560275

X-ray parametric down-conversion at an XFEL

Nicholas J. Hartley, James Baxter, Scott Curtis, Okhura Daisuke, Aliaksei Halavanau, Abigail H. Carpenter, Janita Hussain, Taito Osaka, Norimasa Ozaki, Richard L. Sandberg, Sharon Shwartz, Kai Taketoshi, Naoki Yamagata, Siegfried H. Glenzer

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Abstract

Understanding and harnessing X-ray quantum effects could open new, to our knowledge, frontiers in imaging and quantum optics. In this study, we measured the process of X-ray parametric down-conversion, where a single high-energy X-ray photon splits into two lower-energy photons. Using the SACLA X-ray free electron laser in Japan at 9.83 keV, we found clear evidence that pairs of photons were produced along the energy-angle relationship that conserved both energy and momentum, as predicted for down-conversion, and consistent with quantum entanglement of X-ray photons. By matching specific photon pairs for energy and momentum conservation, we observe a signal rate of 1250 pairs per hour, confirming that correlated photon pairs can be generated and observed in the absence of explicit time correlations. Our results show that with further refinement, the number of entangled photons produced per laser pulse could increase by an order of magnitude. This paves the way for demonstrating quantum-enhanced X-ray imaging, and confirmation of X-ray photon entanglement.

Original language	English
Pages (from-to)	961-967
Number of pages	7
Journal	Optica
Volume	12
Issue number	7
DOIs	https://doi.org/10.1364/OPTICA.560275
State	Published - 20 Jul 2025

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© 2025 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.

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@article{1510631f28a44fe88d440914f5580ea0,

title = "X-ray parametric down-conversion at an XFEL",

abstract = "Understanding and harnessing X-ray quantum effects could open new, to our knowledge, frontiers in imaging and quantum optics. In this study, we measured the process of X-ray parametric down-conversion, where a single high-energy X-ray photon splits into two lower-energy photons. Using the SACLA X-ray free electron laser in Japan at 9.83 keV, we found clear evidence that pairs of photons were produced along the energy-angle relationship that conserved both energy and momentum, as predicted for down-conversion, and consistent with quantum entanglement of X-ray photons. By matching specific photon pairs for energy and momentum conservation, we observe a signal rate of 1250 pairs per hour, confirming that correlated photon pairs can be generated and observed in the absence of explicit time correlations. Our results show that with further refinement, the number of entangled photons produced per laser pulse could increase by an order of magnitude. This paves the way for demonstrating quantum-enhanced X-ray imaging, and confirmation of X-ray photon entanglement.",

author = "Hartley, \{Nicholas J.\} and James Baxter and Scott Curtis and Okhura Daisuke and Aliaksei Halavanau and Carpenter, \{Abigail H.\} and Janita Hussain and Taito Osaka and Norimasa Ozaki and Sandberg, \{Richard L.\} and Sharon Shwartz and Kai Taketoshi and Naoki Yamagata and Glenzer, \{Siegfried H.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.",

year = "2025",

month = jul,

day = "20",

doi = "10.1364/OPTICA.560275",

language = "אנגלית",

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T1 - X-ray parametric down-conversion at an XFEL

AU - Hartley, Nicholas J.

AU - Baxter, James

AU - Curtis, Scott

AU - Daisuke, Okhura

AU - Halavanau, Aliaksei

AU - Carpenter, Abigail H.

AU - Hussain, Janita

AU - Osaka, Taito

AU - Ozaki, Norimasa

AU - Sandberg, Richard L.

AU - Shwartz, Sharon

AU - Taketoshi, Kai

AU - Yamagata, Naoki

AU - Glenzer, Siegfried H.

PY - 2025/7/20

Y1 - 2025/7/20

N2 - Understanding and harnessing X-ray quantum effects could open new, to our knowledge, frontiers in imaging and quantum optics. In this study, we measured the process of X-ray parametric down-conversion, where a single high-energy X-ray photon splits into two lower-energy photons. Using the SACLA X-ray free electron laser in Japan at 9.83 keV, we found clear evidence that pairs of photons were produced along the energy-angle relationship that conserved both energy and momentum, as predicted for down-conversion, and consistent with quantum entanglement of X-ray photons. By matching specific photon pairs for energy and momentum conservation, we observe a signal rate of 1250 pairs per hour, confirming that correlated photon pairs can be generated and observed in the absence of explicit time correlations. Our results show that with further refinement, the number of entangled photons produced per laser pulse could increase by an order of magnitude. This paves the way for demonstrating quantum-enhanced X-ray imaging, and confirmation of X-ray photon entanglement.

AB - Understanding and harnessing X-ray quantum effects could open new, to our knowledge, frontiers in imaging and quantum optics. In this study, we measured the process of X-ray parametric down-conversion, where a single high-energy X-ray photon splits into two lower-energy photons. Using the SACLA X-ray free electron laser in Japan at 9.83 keV, we found clear evidence that pairs of photons were produced along the energy-angle relationship that conserved both energy and momentum, as predicted for down-conversion, and consistent with quantum entanglement of X-ray photons. By matching specific photon pairs for energy and momentum conservation, we observe a signal rate of 1250 pairs per hour, confirming that correlated photon pairs can be generated and observed in the absence of explicit time correlations. Our results show that with further refinement, the number of entangled photons produced per laser pulse could increase by an order of magnitude. This paves the way for demonstrating quantum-enhanced X-ray imaging, and confirmation of X-ray photon entanglement.

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SN - 2334-2536

VL - 12

SP - 961

EP - 967

JO - Optica

JF - Optica

IS - 7

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X-ray parametric down-conversion at an XFEL

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