DL_POLY Quantum 2.1: A Suite of Real-Time Path Integral Methods for the Simulation of Dynamical Properties and Vibrational SpectraLondon, N (London, Nathan); Limbu, DK (Limbu, Dil K.); Faruque, MO (Faruque, Md Omar); Shakib, FA (Shakib, Farnaz A.); Momeni, MR (Momeni, Mohammad R.)
Journal of Physical Chemistry A, 2025, Volume 129, pp. 4015-4028.
DL_POLY Quantum 2.1 is introduced here as a highly modular, sustainable, and scalable general-purpose molecular dynamics (MD) simulation software for large-scale long-time MD simulations of condensed phase and interfacial systems with the essential nuclear quantum effects (NQEs) included. The new release improves upon version 2.0 through the introduction of several emerging real-time path integral (PI) methods, including fast centroid molecular dynamics (f-CMD) and fast quasi-CMD (f-QCMD) methods, as well as our recently introduced hybrid CMD (h-CMD) method for the accurate and efficient simulation of vibrational infrared spectra. Several test cases, including liquid bulk water at 300 K and ice I h at 150 K, are used to showcase the performance of different implemented PI methods in simulating the infrared spectra at both ambient conditions and low temperatures where NQEs become more apparent. Additionally, using different salt-in-water (i.e., dilute) and water-in-salt (i.e., concentrated) lithium bis(trifluoromethanesulfonyl)imide (Li-TFSI) aqueous electrolyte solutions, we demonstrate the applicability of our recently introduced h-CMD method implemented in DL_POLY Quantum 2.1 for the large scale simulation of infrared (IR) spectra of complex heterogeneous systems. We show that h-CMD can overcome the curvature problem of CMD and the artificial broadening of T-RPMD for the accurate simulation of the vibrational spectra of complex, heterogeneous systems with NQEs included.
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