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Main Authors: Song, Huai-Hang, Wang, Wei-Min, Li, Yu-Tong, He, Yutong, Tamburini, Matteo, Keitel, Christoph H., Sheng, Zheng-Ming
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.06711
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author Song, Huai-Hang
Wang, Wei-Min
Li, Yu-Tong
He, Yutong
Tamburini, Matteo
Keitel, Christoph H.
Sheng, Zheng-Ming
author_facet Song, Huai-Hang
Wang, Wei-Min
Li, Yu-Tong
He, Yutong
Tamburini, Matteo
Keitel, Christoph H.
Sheng, Zheng-Ming
contents As a fundamental QED process, linear Breit-Wheeler (LBW) pair production predicted 90 years ago has not yet been demonstrated in experiments with real photons. Here, we propose an experimentally advantageous scheme to detect the LBW signal by irradiating a foil target with a single 10 PW-level laser. Our integrated QED particle-in-cell simulations demonstrate that the LBW signal can be explicitly distinguished from the Bethe-Heitler (BH) signal by comparing positron energy spectra behind the target at varying target thicknesses. The LBW positrons are created at the front of the target and subsequently experience both laser vacuum acceleration and sheath field acceleration to gain high energies, while BH positrons, originating within the target bulk, are only subjected to sheath field acceleration. As a result, the invariance of the high-energy tail of positron spectra with respect to the target thickness serves as a distinct signature of the LBW process. Notably, this scheme remains viable even when the BH yield dominates over the LBW yield.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06711
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Detecting Linear Breit-Wheeler Signals with a Laser-Foil Setup
Song, Huai-Hang
Wang, Wei-Min
Li, Yu-Tong
He, Yutong
Tamburini, Matteo
Keitel, Christoph H.
Sheng, Zheng-Ming
Plasma Physics
As a fundamental QED process, linear Breit-Wheeler (LBW) pair production predicted 90 years ago has not yet been demonstrated in experiments with real photons. Here, we propose an experimentally advantageous scheme to detect the LBW signal by irradiating a foil target with a single 10 PW-level laser. Our integrated QED particle-in-cell simulations demonstrate that the LBW signal can be explicitly distinguished from the Bethe-Heitler (BH) signal by comparing positron energy spectra behind the target at varying target thicknesses. The LBW positrons are created at the front of the target and subsequently experience both laser vacuum acceleration and sheath field acceleration to gain high energies, while BH positrons, originating within the target bulk, are only subjected to sheath field acceleration. As a result, the invariance of the high-energy tail of positron spectra with respect to the target thickness serves as a distinct signature of the LBW process. Notably, this scheme remains viable even when the BH yield dominates over the LBW yield.
title Detecting Linear Breit-Wheeler Signals with a Laser-Foil Setup
topic Plasma Physics
url https://arxiv.org/abs/2501.06711