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Complex Langevin analysis of the spontaneous rotational symmetry breaking in the dimensionally-reduced super-Yang-Mills models Takehiro Azuma (Setsunan.

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Presentation on theme: "Complex Langevin analysis of the spontaneous rotational symmetry breaking in the dimensionally-reduced super-Yang-Mills models Takehiro Azuma (Setsunan."— Presentation transcript:

1 Complex Langevin analysis of the spontaneous rotational symmetry breaking in the dimensionally-reduced super-Yang-Mills models Takehiro Azuma (Setsunan Univ.) KEK-TH workshop 2017 Nov , 17:30-17:45 with Konstantinos N. Anagnostopoulos (NTUA), Yuta Ito (KEK), Jun Nishimura (KEK, SOKENDAI) and Stratos Kovalkov Papadoudis(NTUA)

2 1. Introduction Difficulties in simulating complex partition functions. Sign problem: The reweighting requires configs. exp[O(N2)] <*>0 = (V.E.V. for the phase-quenched partition function Z0)

3 2. The Euclidean IKKT model
⇒Promising candidate for nonperturbative string theory [N. Ishibashi, H. Kawai, Y. Kitazawa and A. Tsuchiya, hep-th/ ] ・Aμ, Ψα ⇒N×N Hermitian traceless matrices.  ・Eigenvalues of Aμ : spacetime coordinate⇒  =2 SUSY ・Originally defined in D=10. In the following, we consider the simplified Euclidean D=6 case.

4 2. The Euclidean IKKT model
・Integrating out ψ yields det  in D=6 (Pf in D=10) ・Det/Pf   's complex phase contributes to the Spontaneous Symmetry Breaking (SSB) of SO(D). ・Result of Gaussian Expansion Method (GEM) [T.Aoyama, J.Nishimura, and T.Okubo, arXiv: 、J.Nishimura, T.Okubo and F.Sugino, arXiv: ] SSB SO(6)→SO(3) (In D=10, too, SO(10)→SO(3)) Dynamical compactification to 3-dim spacetime.

5 3. Complex Langevin Method
Complex Langevin Method (CLM) ⇒Solve the complex version of the Langevin equation. [Parisi, Phys.Lett. 131B (1983) 393, Klauder, Phys.Rev. A29 (1984) 2036] drift term ・ Aμ : Hermitian→general complex traceless matrices. ・ημ: Hermitian white noise obeying the probability distribution

6 3. Complex Langevin Method
CLM does not work when it encounters these problems: Excursion problem: Aμ is too far from Hermitian ⇒Gauge Cooling minimizes the Hermitian norm (2) Singular drift problem: The drift term dS/d(Aμ)ji diverges due to   's near-zero eigenvalues. We trust CLM when the distribution p(u) of the drift norm falls exponentially as p(u)∝e-au. [K. Nagata, J. Nishimura and S. Shimasaki, arXiv: ] Look at the drift term ⇒ Get the drift of CLM!!

7 3. Complex Langevin Method
Mass deformation [Y. Ito and J. Nishimura, arXiv: ] ・SO(D) symmetry breaking term Here, we take mμ=(0.5,0.5,1,2,4,8) Order parameters for SSB of SO(D): ・Fermionic mass term: Avoids the singular eigenvalue distribution of . Extrapolation (i) N→∞ ⇒(ii)εm→0 ⇒ (iii) mf→0.

8 4. Result 's distribution p(u) (log-log) reject trust N=24, mf=0.65
(i) N→∞ (εm,mf)=(0.25,0.65) faster than exponential N=40 N=24, mf=0.65 N=48 N=32 N=24 at large N

9 4. Result (ii) εm→0 after N→∞ mf=0.65 0.230(3) 0.227(13)

10 4. Result GEM (iii) mf→0 after εm→0 SO(3) SO(4) SO(5)
0.314(12) 0.287(24) ρ+=(ρ1+ρ2+ρ3)/3=0.300(16) 0.103(22) 0.028(23) ρ-=(ρ4+ρ5+ρ6)/3=0.052(3) 0.038(5) SSB SO(6) → at most SO(3)  Consistent with GEM.

11 5. Summary Dynamical compactification of the spacetime in the simplified Euclidean D=6 IKKT model. "Complex Langevin Method" ⇒trend of SSB SO(6)→SO(3). Future works Extension to D=10 Test various ideas ・Reweighting method [J. Bloch, arXiv: ] ・Other deformations than the mass deformation [Y. Ito, J. Nishimura, arXiv: ]

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