Nuclear Quantum Effects in Liquid Water Are Negligible for Structure but Significant for Dynamics
Isotopic substitution, which can be realized both in experiment and computer simulations, is a direct approach to assess the role of nuclear quantum effects on the structure and dynamics of matter. Yet, the impact of nuclear quantum effects on the structure of liquid water as probed in experiment by...
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| Main Authors | , , , , |
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| Format | Journal Article |
| Language | English |
| Published |
23.10.2024
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| Abstract | Isotopic substitution, which can be realized both in experiment and computer
simulations, is a direct approach to assess the role of nuclear quantum effects
on the structure and dynamics of matter. Yet, the impact of nuclear quantum
effects on the structure of liquid water as probed in experiment by comparing
normal to heavy water has remained controversial. To settle this issue, we
employ a highly accurate machine-learned high-dimensional neural network
potential to perform converged coupled cluster-quality path integral
simulations of liquid H$_2$O versus D$_2$O at ambient conditions. We find
substantial H/D quantum effects on the rotational and translational dynamics of
water, in close agreement with the experimental benchmarks. However, in stark
contrast to the role for dynamics, H/D quantum effects turn out to be
unexpectedly small, on the order of 1/1000 \r{A}, on both intramolecular and
H-bonding structure of water. The most probable structure of water remains
nearly unaffected by nuclear quantum effects, but effects on fluctuations away
from average are appreciable, rendering H$_2$O substantially more "liquid" than
D$_2$O. |
|---|---|
| AbstractList | Isotopic substitution, which can be realized both in experiment and computer
simulations, is a direct approach to assess the role of nuclear quantum effects
on the structure and dynamics of matter. Yet, the impact of nuclear quantum
effects on the structure of liquid water as probed in experiment by comparing
normal to heavy water has remained controversial. To settle this issue, we
employ a highly accurate machine-learned high-dimensional neural network
potential to perform converged coupled cluster-quality path integral
simulations of liquid H$_2$O versus D$_2$O at ambient conditions. We find
substantial H/D quantum effects on the rotational and translational dynamics of
water, in close agreement with the experimental benchmarks. However, in stark
contrast to the role for dynamics, H/D quantum effects turn out to be
unexpectedly small, on the order of 1/1000 \r{A}, on both intramolecular and
H-bonding structure of water. The most probable structure of water remains
nearly unaffected by nuclear quantum effects, but effects on fluctuations away
from average are appreciable, rendering H$_2$O substantially more "liquid" than
D$_2$O. |
| Author | Marx, Dominik Daru, János Forbert, Harald Stolte, Nore Behler, Jörg |
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| BackLink | https://doi.org/10.48550/arXiv.2410.17675$$DView paper in arXiv |
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| Snippet | Isotopic substitution, which can be realized both in experiment and computer
simulations, is a direct approach to assess the role of nuclear quantum effects
on... |
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| Title | Nuclear Quantum Effects in Liquid Water Are Negligible for Structure but Significant for Dynamics |
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