Parity doublet model with the U :𝟑 ; 𝑳 U :𝟑 ; 𝑹chiral...
Transcript of Parity doublet model with the U :𝟑 ; 𝑳 U :𝟑 ; 𝑹chiral...
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Hiroki Nishihara Nagoya Univ.
Parity doublet model
with the U(𝟑)𝑳 ×U(𝟑)𝑹 chiral symmetry
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In collaboration with M. Harada ( Nagoya Univ.)
NSTAR2015 @ Osaka ( May 25-28 )
work in progress
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Outline
1. Introduction
2. Three-flavor Parity doublet model
3. Extended Goldberger-Treiman relation
4. Summary
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Parity doubling structure
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1. Introduction
There are many hadrons.
C. Dater & T. Kunihiro, PRD 39, 2805 (1989)
Parity doublet model
Extend to three-flavor case
cf.H. X. Chen, V. Dmitrasinovic and A. Hosaka,
Phys. Rev. D83, 014015 (2011)
D. Jido, M. Oka and A. Hosaka,
Prog. Theor. Phys. 106, 873 (2001)
Our purpose
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Outline
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1. Introduction
2. Three-flavor Parity doublet model
3. Extended Goldberger-Treiman relation
4. Summary
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Representations of the chiral sym.
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2. Parity doublet Model
Quarks belong to
Baryon
These rep. yield octet-baryons.
U(𝟏)𝑨 chargeSU(𝟑)𝑳,𝑹
Rep. of 3q baryon
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Introduce fields
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6 baryon fields and one meson field are introduced as
Chirality
In the following we focus
the study on the spin 1/2 baryon. Meson
Baryon
2. Parity doublet Model
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Allowed operators
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Contract the indices corresponding to the chiral sym.
e.g.
LagrangianKinetic term
Chiral inv. massYukawa interaction
+1 −2 +1U(𝟏)𝑨: = 0
a, b, c : SU(𝟑)𝑳α, β : SU(𝟑)𝑹
Requiring
U(𝟑)𝑳 ×U(𝟑)𝑹 , P, and C.
19 operators
2. Parity doublet Model
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Decomposition to irreducible rep.
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In the chiral braking phase, the chiral rep. are decomposed
to irreducible rep. of the flavor symmetry.
They are assigned as Octet-baryon
2. Parity doublet Model
𝑀 = 𝜎1 ≠ 0 : Chiral sym. Flavor sym.
SSB
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F- and D-term
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They are obtained from the kinetic terms as
Axial vector of the external gauge field
Anti-commutation Commutation
where
Trace works in flavor space
2. Parity doublet Model
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Mass matrix
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Mass term for the nucleons is obtained as
The physical states are defined as
where
A candidate is N (1895)
2. Parity doublet Model
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Outline
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1. Introduction
2. Three-flavor Parity doublet model
3. Extended Goldberger-Treiman relation
4. Summary
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Extended Goldberger-Treiman relation
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3. Extended GT relation
Interaction term is written as
Coupling constant
in the matrix form
Extended Goldberger-Treiman relation
GT-relation
cf.
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Upper bound - Derivation
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The GT relation gives us an upper bound of the decay width
Eigenvector of
the mass matrix
Using completeness:
for any i
sandwich in u Eigenvalue
3. Extended GT relation
∝ Decay width
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Upper bound - Estimate
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The upper bound is rewritten as
where
Input experimental data
We set
PDG + T. Yamanishi, PRD 76, 014006 (2007)
3. Extended GT relation
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Allowed area
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The upper bound is obtain from the extended GT relation
Exp. (PDG)
210 ± 70 MeV
3. Extended GT relation
𝑁 1440 → 𝑁𝜋
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Outline
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1. Introduction
2. Three-flavor Parity doublet model
3. Extended Goldberger-Treiman relation
4. Summary
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Summary
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●We constructed a parity doublet model
with the U(3) × U(3) chiral symmetry
●We found the extended Goldberger-Treiman relation
Future work
○ Hyperons sector
○ Finite density & temperature
Thank you for your attentions.
● This gives us an upper bound of the decay width
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Back up
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Test of the model
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When the experimental data are improved
5. Back up
We have to take account of
a molecular state.
If it appear out of the allowed area
This could be a test whether
𝑁 1440 is a molecular state or not.
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Redefinition
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5. Back up
For convenience, we redefine the baryon field as
After this, we can regard these as positive parity fields.
Corresponding to this.
M M’
C’C
One with a prime does not
include Dirac matrices 𝛾5
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Explicit form
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5. Back up
Lists of the allowed operators
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Properties for P and C
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5. Back up
Properties of fields
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Experimental data
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5. Back up
PDG
T. Yamanishi,
Phys. Rev. D 76, 014006 (2007)
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U(𝟏)𝑨 symmetry
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5. Back up
This symmetry is broken by the anomaly and spontaneous symmetry breaking.
In the linear sigma model
this term reproduces the U(𝟏)𝑨 anomaly,
which is in the meson sector.
For the baryon sector we require the U(𝟏)𝑨 symmetry.