今後の将来展望: hΦ -...
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情報基盤研究開発センターハンズオン:HΦ講習会-ITOを用いたハンズオン-
今後の将来展望: HΦ
山地 洋平 東京大学大学院工学系物理工学専攻
Youhei Yamaji Department of Applied Physics, The University of Tokyo
1. Kωの応用: Finite-T linear response 2. 今後の開発目標 Perspective
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New function will be implemented: Finite-T linear response Combination of TPQ and Kω
Prof. Takafumi Suzuki Graduate School of Engineering, University of Hyogo
Dr. Mitsuaki Kawamura The Institute for Solid State Physics, The University of Tokyo
Y. Yamaji, T. Suzuki, & M. Kawamura, arXiv:1802.02854.
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Finite-Temperature Spectra
Complexity
Memory
Is it necessary? Answer is No
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T. Iitaka and T. Ebisuzaki, Phys. Rev. Lett. 90, 047203 (2003). R. Steinigeweg, J. Gemmer, and W. Brenig, Phys. Rev. Lett. 112, 120601 (2014). T. Monnai and A. Sugita, J. Phys. Soc. Jpn. 83, 094001 (2014). C. Karrasch, D. M. Kennes, and J. E. Moore, Phys. Rev. B 90, 155104 (2014). F. Jin, R. Steinigeweg, F. Heidrich-Meisner, K. Michielsen, and H. De Raedt,
Phys. Rev. B 92, 205103 (2015).
Finite-Temperature Spectra by Real-Time Evolution of Wave Functions
M. W. Long, P. Prelovsek, S. El Shawish, J. Karadamoglou, and X. Zotos, Phys. Rev. B 68, 235106 (2003).
X. Zotos, Phys. Rev. Lett. 92, 067202 (2004).
Finite-Temperature Spectra by Micorocanonical Ensemble
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An Intuitive Description of TPQ States and Green’s Function at Finite Temperature
A normalized TPQ state
Green’s function rewritten by using a TPQ state
Spectral projector
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T. Kato, Progress of Theoretical Physics 4, 514 (1949).
T. Sakurai and H. Sugiura, J. Comput. Appl. Math. 159, 119 (2003). T. Ikegami, T. Sakurai, and U. Nagashima, J. Comput. Appl. Math. 233, 1927 (2010).
Discretized by Riemann sum
An Alternative to Spectral Projection
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Liner equations
Shifted Krylov Subspace Method
←Solvable by Shifted Krylov subspace method
T. Sogabe, T. Hoshi, S. L. Zhang, and T. Fujiwara, A numerical method for calculating the Green’s function arising from electronic structure theory, In Frontiers of Computational Science. pp.189-195, 2007.
A. Frommer (1995, 2003)
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Shifted CG: Algorithm
-Seed equations
-Shifted equations
Library Kω by Dr. Kawamura (ISSP)
S. Yamamoto, et al., J. Phys. Soc. Jpn. 77, 114713 (2008).
Seed switch
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Finite-Temperature Green’s Function by Typical Pure States
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M-2 M-1
M
Green’s funtion
Probability distribution cf.) N. Shimizu, Y. Utsuno, Y. Futamura, T. Sakurai,T. Mizusaki, and T. Otsuka, Physics Letters B 753, 13 (2016).
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12 site AF Kitaev
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18 site AF Kitaev
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Finite-T S(Q,ω) of a Frustrated Magnets: Γ model A. M. Samarakoon, G. Wachtel, Y. Yamaji, D. A. Tennant, C. D. Batista, and Y. B. Kim Phys. Rev. B 98, 045121 (2018)
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Future Plan
New functions will be implemented 1. Finite-T linear response: Combination of TPQ and Kω 2. N spin/body interaction and Green’s function 3. Tool for optimizing model parameters to fit experimental measurements -Example: Find an effective spin Hamiltonian that reproduces an observed magnetizaion process 4. Symmetry -Reduction of dimension of Hilbert space -Analysis of wave fucntions