Your search keyword '"Van Der Goetz, Brett"' showing total 5 results

1. Clean and Convenient Tessellations for Number Counting Jastrow Factors

Author

Van Der Goetz, Brett, Otis, Leon, and Neuscamman, Eric

Subjects

Condensed Matter - Strongly Correlated Electrons, Physics - Chemical Physics

Abstract

We introduce a basis of counting functions that, by cleanly tessellating three dimensional space, allows real space number counting Jastrow factors to be straightforwardly applied to general molecular situations. By exerting direct control over electron populations in local regions of space and encoding pairwise correlations between these populations, these Jastrow factors allow even very simple reference wave functions to adopt nodal surfaces well suited to many strongly correlated settings. Being trivially compatible with traditional Jastrow factors and diffusion Monte Carlo and having the same cubic per-sample cost scaling as a single determinant trial function, these Jastrow factors thus offer a powerful new route to the simultaneous capture of weak and strong electron correlation effects in a wide variety of molecular and materials settings. In multiple strongly correlated molecular examples, we show that even when paired with the simplest possible single determinant reference, these Jastrow factors allow quantum Monte Carlo to out-perform coupled cluster theory and approach the accuracy of traditional multi-reference methods., Comment: 21 pages, 22 figures, 7 tables

Published

2018

2. QMCPACK : An open source ab initio Quantum Monte Carlo package for the electronic structure of atoms, molecules, and solids

Author

Kim, Jeongnim, Baczewski, Andrew, Beaudet, Todd D., Benali, Anouar, Bennett, M. Chandler, Berrill, Mark A., Blunt, Nick S., Borda, Edgar Josue Landinez, Casula, Michele, Ceperley, David M., Chiesa, Simone, Clark, Bryan K., Clay III, Raymond C., Delaney, Kris T., Dewing, Mark, Esler, Kenneth P., Hao, Hongxia, Heinonen, Olle, Kent, Paul R. C., Krogel, Jaron T., Kylanpaa, Ilkka, Li, Ying Wai, Lopez, M. Graham, Luo, Ye, Malone, Fionn D., Martin, Richard M., Mathuriya, Amrita, McMinis, Jeremy, Melton, Cody A., Mitas, Lubos, Morales, Miguel A., Neuscamman, Eric, Parker, William D., Flores, Sergio D. Pineda, Romero, Nichols A., Rubenstein, Brenda M., Shea, Jacqueline A. R., Shin, Hyeondeok, Shulenburger, Luke, Tillack, Andreas, Townsend, Joshua P., Tubman, Norm M., Van Der Goetz, Brett, Vincent, Jordan E., Yang, D. ChangMo, Yang, Yubo, Zhang, Shuai, and Zhao, Luning

Subjects

Physics - Computational Physics, Physics - Chemical Physics

Abstract

QMCPACK is an open source quantum Monte Carlo package for ab-initio electronic structure calculations. It supports calculations of metallic and insulating solids, molecules, atoms, and some model Hamiltonians. Implemented real space quantum Monte Carlo algorithms include variational, diffusion, and reptation Monte Carlo. QMCPACK uses Slater-Jastrow type trial wave functions in conjunction with a sophisticated optimizer capable of optimizing tens of thousands of parameters. The orbital space auxiliary field quantum Monte Carlo method is also implemented, enabling cross validation between different highly accurate methods. The code is specifically optimized for calculations with large numbers of electrons on the latest high performance computing architectures, including multicore central processing unit (CPU) and graphical processing unit (GPU) systems. We detail the program's capabilities, outline its structure, and give examples of its use in current research calculations. The package is available at http://www.qmcpack.org .

Published

2018

3. Suppressing ionic terms with number counting Jastrow factors in real space

Author

Van Der Goetz, Brett and Neuscamman, Eric

Subjects

Physics - Chemical Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We demonstrate that 4-body real space Jastrow factors are, with the right type of Jastrow basis function, capable of performing successful wave function stenciling to remove unwanted ionic terms from an overabundant fermionic reference without unduly modifying the remaining components. In addition to greatly improving size consistency (restoring it exactly in the case of a geminal power), real-space wave function stenciling is, unlike its Hilbert space predecessors, immediately compatible with diffusion Monte Carlo, allowing it to be used in the pursuit of compact, strongly correlated trial functions with reliable nodal surfaces. We demonstrate the efficacy of this approach in the context of a double bond dissociation by using it to extract a qualitatively correct nodal surface despite being paired with a restricted Slater determinant, that, due to ionic term errors, produces a ground state with a qualitatively incorrect nodal surface when used in the absence of the Jastrow., Comment: 9 pages, 7 figures

Published

2017

4. Clean and Convenient Tessellations for Number Counting Jastrow Factors

Author

Van Der Goetz, Brett, Otis, Leon, and Neuscamman, Eric

Subjects

Chemical Physics (physics.chem-ph), Computer Software, Condensed Matter - Strongly Correlated Electrons, Chemical Physics, Strongly Correlated Electrons (cond-mat.str-el), Theoretical and Computational Chemistry, Physics - Chemical Physics, physics.chem-ph, FOS: Physical sciences, Biochemistry and Cell Biology, cond-mat.str-el

Abstract

We introduce a basis of counting functions that, by cleanly tessellating three dimensional space, allows real space number counting Jastrow factors to be straightforwardly applied to general molecular situations. By exerting direct control over electron populations in local regions of space and encoding pairwise correlations between these populations, these Jastrow factors allow even very simple reference wave functions to adopt nodal surfaces well suited to many strongly correlated settings. Being trivially compatible with traditional Jastrow factors and diffusion Monte Carlo and having the same cubic per-sample cost scaling as a single determinant trial function, these Jastrow factors thus offer a powerful new route to the simultaneous capture of weak and strong electron correlation effects in a wide variety of molecular and materials settings. In multiple strongly correlated molecular examples, we show that even when paired with the simplest possible single determinant reference, these Jastrow factors allow quantum Monte Carlo to out-perform coupled cluster theory and approach the accuracy of traditional multi-reference methods., 21 pages, 22 figures, 7 tables

Published

2019

5. QMCPACK: an open sourceab initioquantum Monte Carlo package for the electronic structure of atoms, molecules and solids

Author

Kim, Jeongnim, primary, Baczewski, Andrew D, additional, Beaudet, Todd D, additional, Benali, Anouar, additional, Bennett, M Chandler, additional, Berrill, Mark A, additional, Blunt, Nick S, additional, Borda, Edgar Josué Landinez, additional, Casula, Michele, additional, Ceperley, David M, additional, Chiesa, Simone, additional, Clark, Bryan K, additional, Clay, Raymond C, additional, Delaney, Kris T, additional, Dewing, Mark, additional, Esler, Kenneth P, additional, Hao, Hongxia, additional, Heinonen, Olle, additional, Kent, Paul R C, additional, Krogel, Jaron T, additional, Kylänpää, Ilkka, additional, Li, Ying Wai, additional, Lopez, M Graham, additional, Luo, Ye, additional, Malone, Fionn D, additional, Martin, Richard M, additional, Mathuriya, Amrita, additional, McMinis, Jeremy, additional, Melton, Cody A, additional, Mitas, Lubos, additional, Morales, Miguel A, additional, Neuscamman, Eric, additional, Parker, William D, additional, Pineda Flores, Sergio D, additional, Romero, Nichols A, additional, Rubenstein, Brenda M, additional, Shea, Jacqueline A R, additional, Shin, Hyeondeok, additional, Shulenburger, Luke, additional, Tillack, Andreas F, additional, Townsend, Joshua P, additional, Tubman, Norm M, additional, Van Der Goetz, Brett, additional, Vincent, Jordan E, additional, Yang, D ChangMo, additional, Yang, Yubo, additional, Zhang, Shuai, additional, and Zhao, Luning, additional

Published

2018