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Phases of QCD Normal points and phase transitions; types of transitions; order parameters and susceptibilities; phase diagrams; how transitions are found; uncertainties in lattice computations (1) The QCD phase diagram: finite temperature, finite chemical potential, the full phase diagram (1) What do we know about the properties of QCD matter? (2)
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Lecture 2
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Phase diagram of QCD
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Quantitative knowledge
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Extensions Apart from T and , 2-flavour QCD has the coupling m (quark mass). In a 3-dimensional phase diagrams there are surfaces of 1st order transitions and lines of 2nd order transitions. Also, special critical points called tricritical points (three phases become indistinguishable). Example: QCD, mixture of two chemically pure substances (steel and other alloys), He3-He4 mixtures.
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Extended QCD phase diagram
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New dimensions For Nf=2 one has 2 quark masses mu and md, 2 chemical potentials u and d, and 1 temperature, T. In a 5 dimensional phase diagram there are 4-d regions of 1st order transitions, bounded by 3-d critical volumes, intersecting in 2-d tricritical surfaces, capped by tetracritical lines, ending in pentacritical points!!! Gibbs' phase rule Hard to draw.
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The “real world” Quark masses are fixed in the real world, and they do not vanish Quotes denote equal quark masses: SU(2) flavour symmetry is exact in the “real world” Two “order parameters” : s=andp= s looks for chiral symmetry breaking, p for flavour symmetry breaking
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“Real world” QCD phase diagram
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Nf=2+1 Intensive parameters are three masses, three chemical potentials and T. 7 dimensions in the phase diagram. Gibbs' phase rule: everything up to heptacritical points! High order multicritical points usually exist in subspaces with high symmetry. May be easy to discover them in theoretical computations. Open problem
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Phase diagram/Flag diagram
Couplings ms, mud, and T. A phase diagram labels phases found at each coupling Phases coexist along surfaces, bounded by critical lines.
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Phase diagram/Flag diagram
Projection of the phase diagram into the plane of T=0 flags the phase transitions This is not a phase diagram, because a point on this diagram is not a single phase. Name flag diagram
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Phase diagram/Flag diagram
The usual flag diagram of QCD 1st order transitions in quenched QCD and for large m 1st order transition in 3 flavour QCD and nearby No transition in our universe
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Funny things happen
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Phase diagram/Flag diagram
Extend the flag diagram to include B One way to show a four dimensional phase diagram Otherwise cut “slices” through the 4-d phase diagram and show many slices.
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Another dimension Two O(4) critical lines, two Z(2) critical lines,
and two tricritical points organize the phase diagram. The light quark condensate is an order parameter everywhere for Nf=2+1 and 3.
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The tricritical line Standard scenario.
3C line meets =0 plane at ms3C. For ms>ms3C, the Nf=2 phase diagram is accurate. Very likely, ms3c≈QCD. Accurate location of 3C point: future.
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A tetracritical point? Two 3C lines meet at a 4C point. Since this is a point of higher symmetry, in this flag diagram it can only appear on the ms=0 line. 4C point in Nf=3 is a new universality class. Can be ruled out.
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Two tricritical lines Alternatively, 4C point can be pulled away to infinity. Then phase diagram is qualitatively similar to Nf=2, but quantitatively very different. Not ruled out. Effective models?
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Experimenal challenge
The real QCD phase diagram is 3 dimensional: T, B, Q. The only knobs that an experiment can turn are the energy and the nucleus, ie, 2 parameter variation. How do you explore a 3 dimensional phase space if you have control over only two parameters?
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Summary of Lecture 2 The Nf=2 phase diagram is beginning to take shape: various points in the phase diagram are being estimated numerically. Main open problem is the continuum limit at realistic quark mass. The global structure of the Nf=2+1 phase diagram is now known. The state of the art is rather primitive here. The primary open problem for Nf=2+1 is the location of the tricritical strange quark mass: ms3C
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