Saved in:
Bibliographic Details
Main Authors: Jarvis-Frain, Benjamin, Schang, Andy, Quijandría, Fernando, Nsanzineza, Ibrahim, Dubyna, Dmytro, Chang, C. W. Sandbo, Nori, Franco, Wilson, C. M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.05405
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866918205159636992
author Jarvis-Frain, Benjamin
Schang, Andy
Quijandría, Fernando
Nsanzineza, Ibrahim
Dubyna, Dmytro
Chang, C. W. Sandbo
Nori, Franco
Wilson, C. M.
author_facet Jarvis-Frain, Benjamin
Schang, Andy
Quijandría, Fernando
Nsanzineza, Ibrahim
Dubyna, Dmytro
Chang, C. W. Sandbo
Nori, Franco
Wilson, C. M.
contents The generation of entangled photons through Spontaneous Parametric Down-Conversion (SPDC) is a critical resource for many key experiments and technologies in the domain of quantum optics. Historically, SPDC was limited to the generation of photon pairs. However, the use of the strong nonlinearities in circuit quantum electrodynamics has recently enabled the observation of Three-Photon SPDC (3P-SPDC). Despite great interest in the entanglement structure of the resultant states, entanglement between photon triplets produced by a 3P-SPDC source has still has not been confirmed. Here, we report on the observation of genuine tripartite non-Gaussian entanglement in the steady-state output field of a 3P-SPDC source consisting of a superconducting parametric cavity coupled to a transmission line. We study this non-Gaussian tripartite entanglement using an entanglement witness built from three-mode correlation functions, and observe a maximum violation of the bound by 23 standard deviations of the statistical noise. Furthermore, we find strong agreement between the observed and the analytically predicted scaling of the entanglement witness. We then explore the impact of the temporal function used to define the photon mode on the observed value of the entanglement witness.
format Preprint
id arxiv_https___arxiv_org_abs_2510_05405
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Observation of Genuine Tripartite Non-Gaussian Entanglement from a Superconducting Three-Photon Spontaneous Parametric Down-Conversion Source
Jarvis-Frain, Benjamin
Schang, Andy
Quijandría, Fernando
Nsanzineza, Ibrahim
Dubyna, Dmytro
Chang, C. W. Sandbo
Nori, Franco
Wilson, C. M.
Quantum Physics
The generation of entangled photons through Spontaneous Parametric Down-Conversion (SPDC) is a critical resource for many key experiments and technologies in the domain of quantum optics. Historically, SPDC was limited to the generation of photon pairs. However, the use of the strong nonlinearities in circuit quantum electrodynamics has recently enabled the observation of Three-Photon SPDC (3P-SPDC). Despite great interest in the entanglement structure of the resultant states, entanglement between photon triplets produced by a 3P-SPDC source has still has not been confirmed. Here, we report on the observation of genuine tripartite non-Gaussian entanglement in the steady-state output field of a 3P-SPDC source consisting of a superconducting parametric cavity coupled to a transmission line. We study this non-Gaussian tripartite entanglement using an entanglement witness built from three-mode correlation functions, and observe a maximum violation of the bound by 23 standard deviations of the statistical noise. Furthermore, we find strong agreement between the observed and the analytically predicted scaling of the entanglement witness. We then explore the impact of the temporal function used to define the photon mode on the observed value of the entanglement witness.
title Observation of Genuine Tripartite Non-Gaussian Entanglement from a Superconducting Three-Photon Spontaneous Parametric Down-Conversion Source
topic Quantum Physics
url https://arxiv.org/abs/2510.05405