Publications

Geva E, Jang S, Voth GA. Quantum Rate Theory: A Path Integral Centroid Perspective. In: Yip S Encyclopedia of Materials Modeling: Vol. I, Fundamental Models and Methods. Encyclopedia of Materials Modeling: Vol. I, Fundamental Models and Methods. ; 2005.

Jang S, Jang S, Voth GA. Applications Of Higher Order Composite Factorization Schemes In Imaginary Time Path Integral Simulations. J. Chem. Phys. 2001 ;115:7832-7842.

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Jang S, Jang S, Voth GA. Applications Of Higher Order Composite Factorization Schemes In Imaginary Time Path Integral Simulations. J. Chem. Phys. 2001 ;115:7832-7842.

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Jang S, Voth GA. Can Quantum Transition State Theory be Defined as a t = 0+ Limit?. J. Chem. Phys. 2016 ;144(084110):1-12.

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Jang S, Sinitskiy AV, Voth GA. Can the Ring Polymer Molecular Dynamics Method be Interpreted as Real Time Quantum Dynamics?. J. Chem. Phys. 2014 ;140:1-11.

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Pavese M, Jang S, Voth GA. Centroid Molecular Dynamics: A Quantum Dynamics Method Suitable for the Parallel Computer. Parallel Computing. 2000 ;26:1025-1041.

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Jang S, Voth GA. Non-Uniqueness of Quantum Transition State Theory and General Dividing Surfaces in the Path Integral Space. J. Chem. Phys. 2017 ;146.

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