Long-distance contribution to $ε_K$ from lattice QCD
Long-distance contribution to $ε_K$ from lattice QCD
A lattice QCD approach to the calculation of the long-distance contributions to $\epsilon_K$ is presented. This parameter describes indirect CP violation in $K\to\pi\pi$ decay. While the short-distance contribution to $\epsilon_K$ can be accurately calculated in terms of standard model parameters and a single hadronic matrix element, $B_K$, there is a long-distance part which is estimated to be approximately $5\%$ of the total and is more difficult to determine. A method for determining this small but phenomenologically important contribution to $\epsilon_K$ using lattice QCD is proposed and a complete exploratory calculation of the contribution is presented. This exploratory calculation uses an unphysical light quark mass corresponding to a 339 MeV pion mass and an unphysical charm quark mass of 968 MeV, expressed in the $\overline{\mathrm{MS}}$ scheme at 2 GeV. This calculation demonstrates that future work should be able to determine this long-distance contribution from first principles with a controlled error of 10\% or less.
hep-lat
Bai, Ziyuan
68a0d1d1-1570-4692-8d9b-9dbe4a3cdcea
Christ, Norman H.
d745e59f-6c2d-4fa1-a3e9-80a5560af81e
Karpie, Joseph M.
be7300b8-e448-4db7-9df4-cd5f22ed0c61
Sachrajda, Christopher T.
0ed6568b-f52f-4314-8677-4aeeb925d6f7
Soni, Amarjit
1d4d3e39-9bc6-4861-8ced-fca957e79dfa
Wang, Bigeng
d50b4941-59c8-4627-9bb1-e4592cccbee9
Bai, Ziyuan
68a0d1d1-1570-4692-8d9b-9dbe4a3cdcea
Christ, Norman H.
d745e59f-6c2d-4fa1-a3e9-80a5560af81e
Karpie, Joseph M.
be7300b8-e448-4db7-9df4-cd5f22ed0c61
Sachrajda, Christopher T.
0ed6568b-f52f-4314-8677-4aeeb925d6f7
Soni, Amarjit
1d4d3e39-9bc6-4861-8ced-fca957e79dfa
Wang, Bigeng
d50b4941-59c8-4627-9bb1-e4592cccbee9
[Unknown type: UNSPECIFIED]
Abstract
A lattice QCD approach to the calculation of the long-distance contributions to $\epsilon_K$ is presented. This parameter describes indirect CP violation in $K\to\pi\pi$ decay. While the short-distance contribution to $\epsilon_K$ can be accurately calculated in terms of standard model parameters and a single hadronic matrix element, $B_K$, there is a long-distance part which is estimated to be approximately $5\%$ of the total and is more difficult to determine. A method for determining this small but phenomenologically important contribution to $\epsilon_K$ using lattice QCD is proposed and a complete exploratory calculation of the contribution is presented. This exploratory calculation uses an unphysical light quark mass corresponding to a 339 MeV pion mass and an unphysical charm quark mass of 968 MeV, expressed in the $\overline{\mathrm{MS}}$ scheme at 2 GeV. This calculation demonstrates that future work should be able to determine this long-distance contribution from first principles with a controlled error of 10\% or less.
Text
2309.01193v1
- Author's Original
Available under License Other.
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Accepted/In Press date: 3 September 2023
Keywords:
hep-lat
Identifiers
Local EPrints ID: 483194
URI: http://eprints.soton.ac.uk/id/eprint/483194
PURE UUID: 9b0365c8-14c6-446f-aa75-22017f02486f
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Date deposited: 26 Oct 2023 16:32
Last modified: 17 Mar 2024 05:09
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Contributors
Author:
Ziyuan Bai
Author:
Norman H. Christ
Author:
Joseph M. Karpie
Author:
Amarjit Soni
Author:
Bigeng Wang
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