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Probing QCD critical point and induced gravitational wave by black hole physics

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arxiv 2201.02004 v4 pith:6WDB4N2C submitted 2022-01-06 hep-th gr-qchep-ph

Probing QCD critical point and induced gravitational wave by black hole physics

classification hep-th gr-qchep-ph
keywords chemicalfinitepotentialbaryoncriticalfirst-ordergravitationaltransition
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Locating the critical endpoint of QCD and the region of a first-order phase transition at finite baryon chemical potential is an active research area for QCD matter. We provide a gravitational dual description of QCD matter at finite baryon chemical potential and finite temperature using the non-perturbative approach from gauge/gravity duality. After fixing all model parameters using state-of-the-art lattice QCD data at zero chemical potential, the predicted equations of state and QCD trace anomaly relation are in quantitative agreement with the latest lattice results. We then give the exact location of the critical endpoint as well as the first-order transition line, which is within the coverage of many upcoming experimental measurements. Moreover, using the data from our model at finite baryon chemical potential, we calculate the spectrum of the stochastic gravitational wave background associated with the first-order QCD transition in the early universe, which could be observable via pulsar timing in the future.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Fierz-complete four-quark interactions and the QCD phase diagram

    hep-ph 2026-07 conditional novelty 6.0

    Including Fierz-complete four-quark interactions in fRG-QCD shifts the predicted critical endpoint to (T, μ_B) = (102, 647) MeV and slightly increases the phase boundary curvature to κ₂ = 0.0151, while confirming σ an...

  2. Thermodynamics and transport in holographic QCD with Gauss-Bonnet corrections

    hep-th 2026-05 unverdicted novelty 3.0

    A holographic QCD model with dilaton-dependent Gauss-Bonnet corrections matches lattice thermodynamics and yields non-monotonic η/s plus a critical endpoint.