Time-step targeting time-dependent and dynamical density matrix renormalization group algorithms with ab initio Hamiltonians
Abstract
We study the dynamical density matrix renormalization group (DDMRG) and time-dependent density matrix renormalization group (td-DMRG) algorithms in the ab initio context to compute dynamical correlation functions of correlated systems. We analyze the strengths and weaknesses of the two methods in small model problems and propose two simple improved formulations, DDMRG++ and td-DMRG++, that give increased accuracy at the same bond dimension at a nominal increase in cost. We apply DDMRG++ to obtain the oxygen core-excitation energy in the water molecule in a quadruple-zeta quality basis, which allows us to estimate the remaining correlation error in existing coupled cluster results. Further, we use DDMRG++ to compute the local density of states and gaps and td-DMRG++ to compute the complex polarization function, in linear hydrogen chains with up to 50 H atoms, to study metallicity and delocalization as a function of bond length.
Additional Information
© 2017 American Chemical Society. Received: June 29, 2017; Published: September 27, 2017. E.R. would like to thank Dr. Alexander Yu. Sokolov for insightful discussions and Dr. Weifeng Hu for his help with the Block DMRG code. This work was supported by the US National Science Foundation via NSF:CHE-1657286 and NSF:CHE-1650436. The authors declare no competing financial interest.Attached Files
Submitted - 1706.09537.pdf
Supplemental Material - ct7b00682_si_001.pdf
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Additional details
- Eprint ID
- 81900
- Resolver ID
- CaltechAUTHORS:20170928-123714695
- CHE-1657286
- NSF
- CHE-1650436
- NSF
- Created
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2017-09-28Created from EPrint's datestamp field
- Updated
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2021-11-15Created from EPrint's last_modified field