Recent developments in path integral methodology have significantly reduced the computational expense of including quantum mechanical effects in the nuclear motion in ab initio molecular dynamics simulations. However, the implementation of these developments requires a considerable programming effort, which has hindered their adoption. Here we describe i-PI, an interface written in Python that has been designed to minimise the effort required to bring state-of-the-art path integral techniques to an electronic structure program. While it is best suited to first principles calculations and path integral molecular dynamics, i-PI can also be used to perform classical molecular dynamics simulations, and can just as easily be interfaced with an e...
Imaginary-time path-integral (PI) molecular simulations can be used to calculate exact quantum stati...
Theoretical/computational description of excited state molecular dynamics is nowadays a crucial tool...
Recent engineering advances have opened up avenues to novel technologies that bridge the gap between...
Recent developments in path integral methodology have significantly reduced the computational expens...
Recent developments in path integral methodology have significantly reduced the computational expens...
Recent developments in path integral methodology have significantly reduced the computational expens...
This thesis presents i-PI, a new path integral molecular dynamics code designed to capture nuclear q...
Progress in the atomic-scale modeling of matter over the past decade has been tremendous. This progr...
Progress in the atomic-scale modeling of matter over the past decade has been tremendous. This progr...
The quantum nature of nuclear motions plays a vital role in the structure, stability, and thermodyna...
Imaginary time path-integral (PI) simulations that account for nuclear quantum effects (NQE) beyond ...
Progress in the atomic-scale modeling of matter over the past decade has been tremendous. This progr...
Imaginary-time path-integral (PI) molecular simulations can be used to calculate exact quantum stati...
Nuclear quantum effects play important roles in systems containing hydrogen. Process that involve t...
Python-based simulations of chemistry framework (PySCF) is a general-purpose electronic structure pl...
Imaginary-time path-integral (PI) molecular simulations can be used to calculate exact quantum stati...
Theoretical/computational description of excited state molecular dynamics is nowadays a crucial tool...
Recent engineering advances have opened up avenues to novel technologies that bridge the gap between...
Recent developments in path integral methodology have significantly reduced the computational expens...
Recent developments in path integral methodology have significantly reduced the computational expens...
Recent developments in path integral methodology have significantly reduced the computational expens...
This thesis presents i-PI, a new path integral molecular dynamics code designed to capture nuclear q...
Progress in the atomic-scale modeling of matter over the past decade has been tremendous. This progr...
Progress in the atomic-scale modeling of matter over the past decade has been tremendous. This progr...
The quantum nature of nuclear motions plays a vital role in the structure, stability, and thermodyna...
Imaginary time path-integral (PI) simulations that account for nuclear quantum effects (NQE) beyond ...
Progress in the atomic-scale modeling of matter over the past decade has been tremendous. This progr...
Imaginary-time path-integral (PI) molecular simulations can be used to calculate exact quantum stati...
Nuclear quantum effects play important roles in systems containing hydrogen. Process that involve t...
Python-based simulations of chemistry framework (PySCF) is a general-purpose electronic structure pl...
Imaginary-time path-integral (PI) molecular simulations can be used to calculate exact quantum stati...
Theoretical/computational description of excited state molecular dynamics is nowadays a crucial tool...
Recent engineering advances have opened up avenues to novel technologies that bridge the gap between...