Phase structure analysis of CP(N-1) model using Tensor ......Introduction • The two dimensional...
Transcript of Phase structure analysis of CP(N-1) model using Tensor ......Introduction • The two dimensional...
![Page 1: Phase structure analysis of CP(N-1) model using Tensor ......Introduction • The two dimensional CP(N-1) model including the θ term is a toy model of QCD. • The phase structure](https://reader031.fdocuments.us/reader031/viewer/2022041921/5e6bd939e8685078033ff124/html5/thumbnails/1.jpg)
Phase structure analysis of CP(N-1) model
using Tensor renormalization group
Hikaru Kawauchi with
Shinji Takeda Kanazawa University
July 25, 2016
Lattice 2016 Southampton, July 24-30, 2016
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Outline
• Introduction
• Tensor Renormalization Group (TRG)
• CP(N-1) model and Numerical results
• Summary
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Introduction• The two dimensional CP(N-1) model including the θ term is a toy model of QCD.
• The phase structure is left vague because of the sign problem.
• One possible way to avoid the sign problem is to simply abandon Monte Carlo simulation.
• We apply the Tensor Renormalization Group method to analyze this phase structure.
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Phase structure of CP(N-1) model?
confining phase
deconfinement phase?
0
1
θ/π
β 1
G. Schierholz, Nucl. Phys. B, Proc. Suppl. 37A, 203 (1994).
Schierholz suggested a possibility that θ becomes 0 in the continuum limit.
Other researches indicated that the deconfinement phase boundary may appear due to the statistical errors. J. C. Plefka and S. Samuel, Phys. Rev. D 56, 44 (1997).
M. Imachi, S, Kanou, and H. Yoneyama, Prog. Theor. Phys. 102, 653 (1999).
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Strong coupling analysis of the phase structure of the CP(1) model
0
0.5
1
1.5
2
0 0.2 0.4 0.6 0.8 1 1.2 1.4
θ/π
β
confining phase
deconfinement phase
Deconfinement phase appears, but strong coupling analysis is not appropriate for large β region.
J. C. Plefka and S. Samuel, Phys. Rev. D 55, 3966 (1997).
confining phase
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Monte Carlo analysis of the phase structure of CP(1) model
V. Azcoiti, G. Di Carlo, and A. Galante, Phys. Rev. Lett. 98, 257203 (2007).
Haldane conjecture: 2d O(3) model at θ=π is gapless.
The order of phase transition changes around β=0.5.0
1
θ/π
β0.5
1st 2ndHow about CP(1) model?F. D. M. Haldane, Phys. Lett. A 93, 464 (1983).
F. D. M. Haldane, Phys. Rev. Lett. 50, 1153 (1983).
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Tensor Renormalization Group (TRG)Michael Levin and Cody P. Nave, Phys. Rev. Lett. 99, 120601 (2007).
1. Tensor network representation
2. Reduce the number of tensors
Truncate the bond dimensions according to the hierarchy of the singular values of the tensors.
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CP(N-1) model in two dimensionsTensor Network Representation
za⇤za = 1, a = 1, · · · , NUij = exp{iAij}
zj
Uij
z⇤i
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CP(N-1) model in two dimensionsTensor Network Representation
Expand the weight with new integers
za⇤za = 1, a = 1, · · · , NUij = exp{iAij}
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CP(N-1) model in two dimensionsTensor Network Representation
Integrate out old d.o.f
Tensor
Expand the weight with new integers
za⇤za = 1, a = 1, · · · , NUij = exp{iAij}
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Tensor network representation of CP(N-1) model
((lt;mt), {b}, tp)
((lu;mu), {c}, up)
((lv;mv), {d}, vp)
T
((ls;ms), {a}, sp)
truncate the bond dimensions to Dβ×Dθ
In(x): modified Bessel functions of the first kind
ls, ms: non-negative integers {a}={a1, …, al+m} (an=1, …, N) sp: integer
H. K. and S. Takeda, Phys. Rev. D 93, 114503 (2016).
Tstuv ⌘T((ls;ms),{a},sp)((lt;mt),{b},tp)((lu;mu),{c},up)((lv;mv),{d},vp)
/p
IN�1+ls+ms(2N�)⇥2sin ✓+2⇡sp
2
✓ + 2⇡sp
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Free energy density of CP(1) modelTRG method vs. Strong coupling analysis
β=0.2 L=220
J. C. Plefka and S. Samuel, Phys. Rev. D 55, 3966 (1997).
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0 0.5 1 1.5 2
F
θ/π
Strong coupling:β=0.2TRG:Dβ=5,Dθ=3,β=0.2,L=1048576
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V dependence of susceptibility χ
0
20
40
60
80
100
120
140
3.12 3.13 3.14 3.15 3.16 3.17 3.18
χ
θ
TRG:Dβ=5, Dθ=3, β=0.2, L=4TRG:Dβ=5, Dθ=3, β=0.2, L=8
TRG:Dβ=5, Dθ=3, β=0.2, L=16TRG:Dβ=5, Dθ=3, β=0.2, L=32
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V dependence of the peak of susceptibility χ
0
1
2
3
4
5
6
1 1.5 2 2.5 3 3.5
logχ m
ax
logL
TRG:Dβ=5,Dθ=3,β=0.2TRG:Dβ=5,Dθ=5,β=0.2
TRG:Dβ=17,Dθ=3,β=0.2
β = 0.2
�max
/ L2.003±0.031
when D� = 17, D✓ = 3
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Truncation dependence of
The truncation dependence does not converge in the region β ≧ 0.4.
�max
/ L�⌫
1st
1.5
1.6
1.7
1.8
1.9
2
2.1
2.2
2.3
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8
γ/ν
β
Dβ=5,Dθ=3Dβ=5,Dθ=5
Dβ=17,Dθ=3
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Phase structure analysis of CP(1) model using TRG
0
1
θ/π
β0.3
1st
0.5
2nd?
Tensor Network Renormalization (TNR)TRG does not work well especially in critical region.
G. Evenbly and G. Vidal, Phys. Rev. Lett. 115, 180405 (2015).
?
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Summary• We analyze the phase structure of CP(1) model including the θ term using TRG.
• We reconfirm that the order of the phase transition at θ=π is 1st order until β=0.3.
• Truncation dependence of the susceptibility arises for β ≧ 0.4.
• Next, we will apply TNR method to the critical region.