Yun-Yi Hsieh scite author profile

Yun-Yi Hsieh

3Publications

45Citation Statements Received

200Citation Statements Given

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National Center for Theoretical Sciences, National Sun Yat-sen University, National Taiwan University

Publications

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Geometries and stabilities of Ag-doped Sin (n=1–13) clusters: A first-principles study

Chuang

Hsieh

Hsu

et al. 2007

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The structures of AgSi(n) (n=1-13) clusters are investigated using first-principles calculations. Our studies suggest that AgSi(n) clusters with n=7 and 10 are relatively stable isomers and that these clusters prefer to be exohedral rather than endohedral. Moreover, doping leaves the inner core structure of the clusters largely intact. Additionally, the plot of fragmentation energies as a function of silicon atoms shows that the AgSi(n) are favored to dissociate into one Ag atom and Si(n) clusters. Alternative pathways exist for n>7 (except n=11) in which the Ag-Si cluster dissociates into a stable Si(7) and a smaller fragment AgSi(n-7). The AgSi(11) cluster dissociates into a stable Si(10) and a small fragment AgSi. Lastly, our analysis indicates that doping of Ag atom significantly decreases the gaps between the highest occupied molecular orbital and the lowest unoccupied molecular orbital for n>7.

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Non-Markovianity, information backflow, and system-environment correlation for open-quantum-system processes

Hsieh

Goan

2019

Phys. Rev. A

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A Markovian process of a system is defined classically as a process in which the future state of the system is fully determined by only its present state, not by its previous history. There have been several measures of non-Markovianity to quantify the degrees of non-Markovian effect in a process of an open quantum system based on information backflow from the environment to the system. However, the condition for the witness of the system information backflow does not coincide with the classical definition of a Markovian process. Recently, a new measure with a condition that coincides with the classical definition in the relevant limit has been proposed. Here, we focus on the new definition (measure) for quantum non-Markovian processes, and characterize the Markovian condition as a quantum process that has no information backflow through the reduced environment state (IBTRES) and no system-environment correlation effect (SECE). The action of IBTRES produces non-Markovian effects by flowing the information of quantum operations performed by an experimenter at earlier times back to the system through the environment, while the SECE can produce non-Markovian effect without carrying any earlier quantum operation information. We give the necessary and sufficient conditions for no IBTRES and no SECE, respectively, and show that a process is Markovian if and only if it has no IBTRES and no SECE. The quantitative measures and algorithms for calculating non-Markovianity, IBTRES and soly-SECE are explicitly presented.

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Atomic structure and mechanical properties of BC2N superlattice

Huang

et al. 2010

Diamond and Related Materials

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Yun-Yi Hsieh

Geometries and stabilities of Ag-doped Sin (n=1–13) clusters: A first-principles study

Non-Markovianity, information backflow, and system-environment correlation for open-quantum-system processes

Atomic structure and mechanical properties of BC2N superlattice

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