Impact of Parallel Computing on Study of Time Evolution of a Quantum Impurity System in Response to a Quench

In an arbitrary system subjected to a quench or an external field that varies the system parameters, the degrees of freedom increase double in comparison to that of an isolated system. In this study, we consider the quantum impurity system subjected to a quench, and measure the corresponding time-ev...

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Bibliographic Details
Main Authors: Nghiem Thi Minh, Hoa, Dang The Hung, Luong Minh Tuan, Duong Xuan, Nui, Nguyen Duc Trung, Kien
Format: Article
Language:English
Published: Đại học Quốc gia Việt Nam 2020
Subjects:
GPU
Online Access:https://dlib.phenikaa-uni.edu.vn/handle/PNK/396
https://doi.org/10.25073/2588-1124/vnumap.4453
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Summary:In an arbitrary system subjected to a quench or an external field that varies the system parameters, the degrees of freedom increase double in comparison to that of an isolated system. In this study, we consider the quantum impurity system subjected to a quench, and measure the corresponding time-evolution of the spectral function, which is originated from the time-resolved photoemission spectroscopy. Due to the large number of degrees of freedom, the expression of the time-dependent spectral function is twice much more complicated than that of the time-independent spectral function, and therefore the calculation is extremely time-consuming. In this paper, we estimate the scale of time consumption of such calculation in comparison to that of time-independent calculation, and present our solution to the problem by using parallel computing as implementing both MPI and OpenMP to the calculation. We also discuss the possibility to exploit parallel computing with GPU in the near future, and the preliminary results of time-dependent spectral function.