2018
DOI: 10.1038/s41570-017-0109
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Nuclear quantum effects enter the mainstream

Abstract: Over the past decades, atomistic simulations of chemical, biological and materials systems have become increasingly precise and predictive thanks to the development of accurate and efficient techniques that describe the quantum mechanical behavior of electrons. However, the overwhelming majority of such simulations still assume that the nuclei behave as classical particles. While historically this approximation could sometimes be justified due to complexity and computational overhead, the lack of nuclear quant… Show more

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Cited by 385 publications
(381 citation statements)
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“…If a quantum ensemble of configurations is desired, nuclear quantum effects can be included in the ensemble by using a harmonic-oscillator Wigner distribution [18,19] or by performing path integral MD (PIMD). [20] Because these nuclear quantum effects include vibrational zero-point energy, the sampled configurations FIGURE 1 Experimental absorption spectra for Nile red in four solvents. The observed solvatochromic red-shift approximately correlates with increasing solvent polarity (ϵ 0 = 2.0, 2.3, 20.7, 24.5 for cyclohexane, benzene, acetone, and ethanol, respectively) and the spectral shapes also undergo significant changes.…”
Section: Sampling Of Solute-solvent Configurationsmentioning
confidence: 99%
“…If a quantum ensemble of configurations is desired, nuclear quantum effects can be included in the ensemble by using a harmonic-oscillator Wigner distribution [18,19] or by performing path integral MD (PIMD). [20] Because these nuclear quantum effects include vibrational zero-point energy, the sampled configurations FIGURE 1 Experimental absorption spectra for Nile red in four solvents. The observed solvatochromic red-shift approximately correlates with increasing solvent polarity (ϵ 0 = 2.0, 2.3, 20.7, 24.5 for cyclohexane, benzene, acetone, and ethanol, respectively) and the spectral shapes also undergo significant changes.…”
Section: Sampling Of Solute-solvent Configurationsmentioning
confidence: 99%
“…[75][76][77] However, the instanton method may offer a good alternative for the many low-temperature tunneling reactions occurring in the gas phase, on surfaces, or in solids, where distinct optimal pathways describe the mechanism and dynamical recrossing is unimportant. In principle, the instanton method has the advantage of not requiring a well-sampled ensemble of paths, but only a single optimal trajectory.…”
Section: Connection To Other Path-integral Approachesmentioning
confidence: 99%
“…Such an approach seems feasible in the light of the fact that the nuclear dynamics of hydrogen in condensed matter systems are generally believed to be much less successfully described by harmonic lattice dynamics calculations based on the notion of classical (point-like) nuclei. Hydrogen nuclei are rather to be thought of as delocalized wave-packets on effective potential surfaces and their dynamics should be described within the framework of Born-Oppenheimer Molecular Dynamics (BOMD) with a quantum-thermostat or Path Integral Molecular Dynamics (PIMD) [42,56,[65][66][67][68][69].…”
Section: Modellingmentioning
confidence: 99%