Saved in:
Bibliographic Details
Main Authors: Sasaki, Shoichi, Aoki, Yasumichi, Ishikawa, Ken-Ichi, Kuramashi, Yoshinobu, Sato, Kohei, Shintani, Eigo, Tsuji, Ryutaro, Watanabe, Hiromasa, Yamazaki, Takeshi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.13490
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913801932111872
author Sasaki, Shoichi
Aoki, Yasumichi
Ishikawa, Ken-Ichi
Kuramashi, Yoshinobu
Sato, Kohei
Shintani, Eigo
Tsuji, Ryutaro
Watanabe, Hiromasa
Yamazaki, Takeshi
author_facet Sasaki, Shoichi
Aoki, Yasumichi
Ishikawa, Ken-Ichi
Kuramashi, Yoshinobu
Sato, Kohei
Shintani, Eigo
Tsuji, Ryutaro
Watanabe, Hiromasa
Yamazaki, Takeshi
contents In the PACS10 project, the PACS collaboration has generated three sets of the PACS10 gauge configurations at the physical point with lattice volume larger than $(10\;{\rm fm})^4$ and three different lattice spacings. The isovector nucleon form factors had been already calculated by using two sets of the PACS10 gauge configurations. In our strategy, the smearing parameters of the nucleon interpolation operator were highly optimized to eliminate as much as possible the contribution of excited states in the nucleon two-point function. This strategy was quite successful in calculations of the electric ($G_E$), magnetic ($G_M$) and axial-vector ($F_A$) form factors, while the induced pseudoscalar ($F_P$) and pseudoscalar ($G_P$) form factors remained strongly affected by residual contamination of $πN$-state contribution. In this work, we propose a simple method to remove the $πN$-state contamination from the $F_P$ form factor, and then evaluate the induced pseudoscalar charge $g_P^\ast$ and the pion-nucleon coupling $g_{πNN}$ from existing data in a new analysis. Applying this method to the $G_P$ form factor is also considered with a help of the axial Ward-Takahashi identity.
format Preprint
id arxiv_https___arxiv_org_abs_2501_13490
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A proposal for removing $πN$-state contamination from the nucleon induced pseudoscalar form factor in lattice QCD
Sasaki, Shoichi
Aoki, Yasumichi
Ishikawa, Ken-Ichi
Kuramashi, Yoshinobu
Sato, Kohei
Shintani, Eigo
Tsuji, Ryutaro
Watanabe, Hiromasa
Yamazaki, Takeshi
High Energy Physics - Lattice
High Energy Physics - Phenomenology
In the PACS10 project, the PACS collaboration has generated three sets of the PACS10 gauge configurations at the physical point with lattice volume larger than $(10\;{\rm fm})^4$ and three different lattice spacings. The isovector nucleon form factors had been already calculated by using two sets of the PACS10 gauge configurations. In our strategy, the smearing parameters of the nucleon interpolation operator were highly optimized to eliminate as much as possible the contribution of excited states in the nucleon two-point function. This strategy was quite successful in calculations of the electric ($G_E$), magnetic ($G_M$) and axial-vector ($F_A$) form factors, while the induced pseudoscalar ($F_P$) and pseudoscalar ($G_P$) form factors remained strongly affected by residual contamination of $πN$-state contribution. In this work, we propose a simple method to remove the $πN$-state contamination from the $F_P$ form factor, and then evaluate the induced pseudoscalar charge $g_P^\ast$ and the pion-nucleon coupling $g_{πNN}$ from existing data in a new analysis. Applying this method to the $G_P$ form factor is also considered with a help of the axial Ward-Takahashi identity.
title A proposal for removing $πN$-state contamination from the nucleon induced pseudoscalar form factor in lattice QCD
topic High Energy Physics - Lattice
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2501.13490