qcd and models : introduction · 2010. 6. 9. · qcd and models : introduction eric swanson...
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QCD and Models : introduction
Eric Swanson
HUGS Summer School Jun, 2010[169/105]
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Theodore Wulf (1910)
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Too Many Hadrons!
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Quarks and the Eightfold Way
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Three quarks for Muster Mark. Der kleine Gott ... in jeden Quark begräbt er seine Nase.
I was lucky enough to see and hear Nycticorax Cyanocephalus Falklandicus, commonly known as the Quark ... only to be found in these remote islands whose inhabitants told me they derive their names from the strangely beautiful call they emit on being disturbed.
J. Joyce, Finneganʼs Wake
Goethe, Faust
R. Robinson, Letter to the Times, 28.2.68
Quarks and the Eightfold Way
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recall that a symmetry implies a degeneracy in the spectrum of a Hamiltonian:
Quarks and the Eightfold Way
[J+,H] = 0[ �J,H] = 0
H|jm� = Ej |jm� J+H|jm� = J
+Ej |jm�
HJ+|jm� = EjJ
+|jm� H|jm + 1� = Ej |jm + 1�
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• ex: the `Threefold Way’ of spin
representation: 1/2 x 1/2 = 1 + 0 dimension: 2 x 2 = 3 + 1
↑ a triplet of degenerate particles
representation: 1/2 x 1/2 x 1/2= 3/2 + 1/2 + 1/2 dimension: 2 x 2 x 2 = 4 + 2 + 2
↑ a quartet of degenerate particles
Quarks and the Eightfold Way
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Gell-Mann &Ne’eman: use SU(3) to categorize hadrons
ex: 3x3= 1+8 (dimensions)
π , π , π , η, K ,K ,K ,K+ 0 - + 0 -0
140 135 140 547 494 498 498 494
uu + dd
du
uu ! dd
us ds sd suud
Quarks and the Eightfold Way
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ex: 3x3x3= 1+8+8+10 (dimensions)
!!
ddd ddu duu uuu
sdd sdu suu
ssd ssu
sss
Quarks and the Eightfold Way
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the Quark Model
proton (1964)
assume reality of quarks u,d,s
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the Quark Model
Q = I + 1/2(B+S)z
Gell-Mann--Nishijima relationship
ex:
p: 1 = 1/2 + 1/2(1+0) : 1 = 1 + 1/2(0+0) : 0 = 0 + 1/2(1-1)πΛ
+
0
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But baryons = qqq
u: q = 1/2 + 1/2(1/3+0)= 2/3
d: q = -1/2 + 1/2(1/3+0)= -1/3s: q = 0 + 1/2(1/3-1)= -1/3
a triplet of fractionally charged fermions!
the Quark Model
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P.L. Connelly et al., PRL10, 371 (1963).
Kp → Λ KK- I remember being very surprised by
Figure 1 …There was an enormous peak … right at the edge of phase space. The fact that the φ decayed predominantly into KK and not πρ was total ly unintel l igible. … Only conservation laws suppress reactions. Here was a reaction that was allowed but did not proceed! I had thought that hadrons probably have constituents and this experiment convinced me that they do, and that they are real. … This was a statement about dynamics which indicated that the constituents were not hypothetical objects carrying the symmetries of the theory, but real objects that moved in space-time from hadron to hadron.”
George Zweig
the Quark Model
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the Quark Modelproblems:
(i)so where are they?assumed very massive... superstrong forces
(ii)`statistics problem’Δ = uuu (↑↑↑) ψ++
each is symmetric, yet the total wavefunction must be antisymmetric!
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a solution: assume that quarks have a newcharacteristic, or charge, of three different types
Δ = uuu (↑↑↑) ψ C++
C = (rgb - rbg - grb + brg - bgr + gbr)1√6
the Quark Model
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proton (1970)
the Quark Model
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why haven’t we seen colour?
Combine with our left over old problem:
the colour confinement hypothesis:colour nonsinglet hadrons do not exist
the Quark Modela new problem:
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Jerome Friedman(1930-)
Henry Kendall (1926-1999)
Richard Taylor(1929-)
James Bjorken(1934-)
the Quark Model
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Finding Quarks
flavour charge mass discoveryup 2/3 5 MeV 1911
down -1/3 10 MeV 1932charm 2/3 1600
MeV1974
strange -1/3 150 MeV 1947top 2/3 174 GeV 1995
bottom -1/3 5 GeV 1977
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Chiral Symmetry
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Chiral SymmetryCurrent Algebra (1950s)
Partially Conserved Axial Current Hypothesis:
!0|Aaµ(0)|!b(p)" = i"abf!pµ
⇒ low energy pion theorems which were (and are) understood as a result of spontaneous symmetry breaking in an effective field theory (more later).
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requirements for a theory of the strong interactions
• partonic interactions• colour confinement• PCAC/ spontaneous chiral symmetry
breaking • renormalisable • approximate SUf(3) symmetry
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gauge SU (3)c
QCD
local gauge invariance (QED):
impose local gauge symmetry:
!(x) ! e!i!(x)!(x)
L =!
!"µ#µ! !!
!"µ(#µ + ieAµ)! Aµ ! Aµ + #µ!
and get an interacting field theory:
A ! A + "! ! ! ! # !
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local gauge invariance (QCD):
impose local gauge symmetry: !(x)a ! Uab!(x)b
for invariance of L:
L =!
!a"ab#µ$µ!b !!
!a
""ab#µ$µ + ig#µ(Aµ)ab
#!b
Aµ ! UAµU † +i
gU!µU †
Fµ! ! [Dµ, D! ] = ig(!µA! " !!Aµ) " g2[Aµ, A! ]
QCD
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1
LQCD =nf!
f
qf [i!µ("µ + igAµ) ! mf ]qf ! 12Tr(Fµ!Fµ!)
Fµ! = "µA! ! "!Aµ + ig[Aµ, A! ]
Aµ = Aaµ#a
2
[#a
2,#b
2] = ifabc #c
2Tr(#a#b) = 2$ab (1)
flavour, colour, Dirac indices
QCD
Lθ = θg2
64π2FµνFµν
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proton (1973+)
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open problems
• confinement: solved but not proved
• strong CP problem
• emergent properties: nuclear physics, exotics, decays, extreme conditions, multi-scales. Right now we can reliably compute almost no properties of hadrons. Q: what if they made a theory that no one could compute with?