User:Ywcui

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(Yuwei Cui)
 
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=Yuwei Cui=
=Yuwei Cui=
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==Who am I ~==
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Hi, I am an undergraduate student of School for the Gifted Young at University and Science and Technology of China. My major is condensed matter physics, and I also have a wide interest in Systems and Synthetic Biology, Chemistry and Mathematicas.
==Fields of Interest==
==Fields of Interest==
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Systems and synthetic biology, first principles calculation, Monte Carlo Algorithm
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'''Systems and synthetic biology, first principles calculation, Monte Carlo Algorithm'''
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==Curriculum Vitae==
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==Research Experience==
==Research Experience==
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{\bf Key Laboratory of Quantum Information, CAS}\hfill {\bf Apr. 2008 - Present}
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'''Key Laboratory of Quantum Information, CAS'''                                        Apr. 2008 - Present
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{\em Participation in the Development of ESP} \hfill { Apr. 2008 - Mar. 2009}\\
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Participation in the Development of ESP                                                 Apr. 2008 - Mar. 2009
Study density functional theory and participated in the development of a first principles electronic structure package(ESP) implementing Order-N Algorithm into it.
Study density functional theory and participated in the development of a first principles electronic structure package(ESP) implementing Order-N Algorithm into it.
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First Principles Calculation of $AFe_{2}As_{2}$ system                                 Mar. 2009 - Aug. 2009
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{\em First Principles Calculation of $AFe_{2}As_{2}$ system} \hfill { Mar. 2009 - Aug. 2009}\\
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Learn to use some other ab-initio simulation package such as VASP and PWscf. During a project cooperated with Prof. X.H. Chen's experimental group, calculation of iron-based 122 system have been systemically carried out, which is in good agreement with experimental results. Furthermore, magnetic structure of $EuFe_{2}As_{2}$ predicted from the calculation results is confirmed by later neutron scattering experiments.
Learn to use some other ab-initio simulation package such as VASP and PWscf. During a project cooperated with Prof. X.H. Chen's experimental group, calculation of iron-based 122 system have been systemically carried out, which is in good agreement with experimental results. Furthermore, magnetic structure of $EuFe_{2}As_{2}$ predicted from the calculation results is confirmed by later neutron scattering experiments.
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{\em Monte Carlo Simulation of  $La_{2}CuO_{4}$} \hfill { Aug. 2009 - present}\\
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Monte Carlo Simulation of  $La_{2}CuO_{4}$                                               Aug. 2009 - present
Learn to use Monte-Carlo method to simulate the phase transition behavior of monolayer copper oxide $La_{2}CuO_{4}$. To understand the subtle magnetic structure and the driven force of the AFM phase transition, large numbers of papers have been studied carefully.
Learn to use Monte-Carlo method to simulate the phase transition behavior of monolayer copper oxide $La_{2}CuO_{4}$. To understand the subtle magnetic structure and the driven force of the AFM phase transition, large numbers of papers have been studied carefully.
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{\bf School of Life Science}\hfill {\bf Jun. 2009 - Present.}\\
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'''School of Life Science'''                                                            Jun. 2009 - Present.
Bring forward an absolutely new method to analysis complex network and consummated it in the summer encouraged by Dr. Z. Liang. From comprehension of complex network and utilization of Monte Carlo method, I introduce a global index to evaluate the stability of a network and a set of local indexes to evaluate importance of single node simultaneously. After systemical tests, I found that the global index could successfully distinguish natural network from other artificial networks of the same size and the distribution of local indexes have interesting peaks which can reveal topological properties of a network. This work has already been submitted to PNAS.
Bring forward an absolutely new method to analysis complex network and consummated it in the summer encouraged by Dr. Z. Liang. From comprehension of complex network and utilization of Monte Carlo method, I introduce a global index to evaluate the stability of a network and a set of local indexes to evaluate importance of single node simultaneously. After systemical tests, I found that the global index could successfully distinguish natural network from other artificial networks of the same size and the distribution of local indexes have interesting peaks which can reveal topological properties of a network. This work has already been submitted to PNAS.
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==Working Papers==
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==Contact Information==
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Room 207, Building No. 221
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East Campus, USTC, P.O. Box 4
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Hefei, Anhui, P.R.China, 230026
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Email: ywcui@mail.ustc.edu.cn
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Phone: +86-551-3607808-8418

Latest revision as of 15:23, 19 October 2009

Contents

Yuwei Cui

Who am I ~

Hi, I am an undergraduate student of School for the Gifted Young at University and Science and Technology of China. My major is condensed matter physics, and I also have a wide interest in Systems and Synthetic Biology, Chemistry and Mathematicas.

Fields of Interest

Systems and synthetic biology, first principles calculation, Monte Carlo Algorithm

Research Experience

Key Laboratory of Quantum Information, CAS Apr. 2008 - Present


Participation in the Development of ESP Apr. 2008 - Mar. 2009 Study density functional theory and participated in the development of a first principles electronic structure package(ESP) implementing Order-N Algorithm into it.

First Principles Calculation of $AFe_{2}As_{2}$ system Mar. 2009 - Aug. 2009 Learn to use some other ab-initio simulation package such as VASP and PWscf. During a project cooperated with Prof. X.H. Chen's experimental group, calculation of iron-based 122 system have been systemically carried out, which is in good agreement with experimental results. Furthermore, magnetic structure of $EuFe_{2}As_{2}$ predicted from the calculation results is confirmed by later neutron scattering experiments.

Monte Carlo Simulation of $La_{2}CuO_{4}$ Aug. 2009 - present Learn to use Monte-Carlo method to simulate the phase transition behavior of monolayer copper oxide $La_{2}CuO_{4}$. To understand the subtle magnetic structure and the driven force of the AFM phase transition, large numbers of papers have been studied carefully.

School of Life Science Jun. 2009 - Present. Bring forward an absolutely new method to analysis complex network and consummated it in the summer encouraged by Dr. Z. Liang. From comprehension of complex network and utilization of Monte Carlo method, I introduce a global index to evaluate the stability of a network and a set of local indexes to evaluate importance of single node simultaneously. After systemical tests, I found that the global index could successfully distinguish natural network from other artificial networks of the same size and the distribution of local indexes have interesting peaks which can reveal topological properties of a network. This work has already been submitted to PNAS.

Contact Information

Room 207, Building No. 221

East Campus, USTC, P.O. Box 4

Hefei, Anhui, P.R.China, 230026

Email: ywcui@mail.ustc.edu.cn

Phone: +86-551-3607808-8418