Aoki, Shinya*; Aoki, Yasumichi*; Fukaya, Hidenori*; Hashimoto, Shoji*; Rohrhofer, C.*; Suzuki, Kei 
In the early days of QCD, the axial 
anomaly was considered as a trigger for the breaking of the 
symmetry through topological excitations of gluon fields. However, it has been a challenge for lattice QCD to quantify the effect. In this work, we simulate QCD at high temperatures with chiral fermions. The exact chiral symmetry enables us to separate the contribution from the axial breaking from others among the susceptibilities in the scalar and pseudoscalar channels. Our result in two-flavor QCD indicates that the chiral susceptibility, which is conventionally used as a probe for breaking, is actually dominated by the axial breaking at temperatures 
MeV.
Language |
: | English |
|---|---|---|
Journal |
: | |
Volume |
: | 396 |
Number |
: | |
Pages |
: | p.050_1 - 050_9 |
Publication Year/Month |
: | 2022/07 |
Meeting title |
: | 38th International Symposium on Lattice Field Theory (Lattice 2021) |
Held date |
: | 2021/07 |
Location (city) |
: | online |
Location (country) |
: | U.S.A. |
Paper URL |
: |
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Keywords |
: | 格子QCD; QCD相転移; カイラル対称性; 軸性U(1)対称性; カイラルフェルミオン; ドメインウォール・フェルミオン; オーバーラップ・フェルミオン; ディラックスペクトル; トポロジカルチャージ; カイラル感受率 |
Cooperating Institute |
: |
Accesses |
: |
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Altmetrics |
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