The θ dependence of the chiral condensate at m/g = 0.0625, 0.125, 0.25

Chiral Condensate Phase Diagram A) Phase Diagram For Inhomog

Chiral condensate as a function of i for 0.0025 and 0.005. fig. 3 Chiral phase diagram for different volumes selections.

Main plot: the temperature dependence of the chiral condensate for four Chiral condensate ¯ ≡ (1/2) (/) ln steph [15]. The critical behaviors of the chiral condensate for the two different

Chiral condensate per flavor ||ll 0 | 1/3 (thick curve) and

The critical behavior of the chiral condensate as a function of the

Density plot of the chiral condensate from β-vqe along with t /g -µ/g

Schematic picture of the chiral condensate (top panels) andChiral condensate φ l (normalized to the vacuum value) and The chiral condensate ¯ ψψb normalized to the chiral condensate in theFigure 2 from visualization of chiral condensate at finite temperature.

Real and imaginary part of the chiral condensate on the thimblesChiral condensate (blue line) and pion condensate (red line) as Phase diagram for chiral symmetry restoration and meson condensation inThe θ dependence of the chiral condensate at m/g = 0.0625, 0.125, 0.25.

Histograms of the chiral condensate for N f = 2, λ g = 0.5 and lattice
Histograms of the chiral condensate for N f = 2, λ g = 0.5 and lattice

The critical behaviors of the chiral condensate for the two different

The subtracted chiral condensate ∆ l,s as a function of theThe chiral condensate and its reduced form with subtracted derivative (a) the chiral condensate σ of model i as a function of temperature tA) phase diagram for inhomogeneous chiral condensate (red dots.

Chiral condensate as a function of temperature and at zero chemicalThe equation of state for the chiral condensate ¯ ψψ and the new order The equation of state for the chiral condensate ¯ ψψ and the new order1: temperature dependence of the chiral condensate from lattice qcd [b.

Chiral condensate per flavor ||ll 0 | 1/3 (thick curve) and
Chiral condensate per flavor ||ll 0 | 1/3 (thick curve) and

Average phase (squares) and covariance between chiral condensate and

Chiral condensate as a function of temperature, for several values ofThe chiral condensate ¯ ψψ as a function of β for different values of Same plots of fig. 5 but for the chiral condensate.Histograms of the chiral condensate for n f = 2, λ g = 0.5 and lattice.

(a) contour map of the chiral condensate σ 0 . (b) enlargement of theChiral condensate at β = 0 on a 4 × 4 lattice, using the mesonic worm Chiral condensate per flavor ||ll 0Chiral condensate comparison with [55]..

Same plots of Fig. 5 but for the chiral condensate. | Download
Same plots of Fig. 5 but for the chiral condensate. | Download

The unsubtracted chiral condensate for c 1 = 0, 0.001, 0.01, 0.02, 0.04

Chiral phase diagram for z 1+1 2 .

.

The θ dependence of the chiral condensate at m/g = 0.0625, 0.125, 0.25
The θ dependence of the chiral condensate at m/g = 0.0625, 0.125, 0.25

Schematic picture of the chiral condensate (top panels) and
Schematic picture of the chiral condensate (top panels) and

The critical behaviors of the chiral condensate for the two different
The critical behaviors of the chiral condensate for the two different

Chiral condensate φ l (normalized to the vacuum value) and
Chiral condensate φ l (normalized to the vacuum value) and

Phase diagram for chiral symmetry restoration and meson condensation in
Phase diagram for chiral symmetry restoration and meson condensation in

The chiral condensate and its reduced form with subtracted derivative
The chiral condensate and its reduced form with subtracted derivative

Chiral condensate (blue line) and pion condensate (red line) as
Chiral condensate (blue line) and pion condensate (red line) as

1: Temperature dependence of the chiral condensate from lattice QCD [B
1: Temperature dependence of the chiral condensate from lattice QCD [B

Chiral condensate at β = 0 on a 4 × 4 lattice, using the mesonic worm
Chiral condensate at β = 0 on a 4 × 4 lattice, using the mesonic worm