Add to ORKGWe present a new semiclassical \u201cdivide-and-conquer\u201d approach tailored for quantum dynamics simulations of high dimensional molecular systems.[1] We show how the method is tested by calculating the quantum vibrational power spectra of water, methane and benzene, three molecules of increasing dimensionality for which benchmark quantum results are available. Then, we applied it to C60 fullerene, a system characterized by 174 vibrational degrees of freedom. Results show that the approach accurately account for quantum anharmonicities, purely quantum features like overtones, and the method does not suffer from the removal of degeneracy when the molecular symmetry is broken. Applications for nH2-protonated glycine and I2 in liquid Kr wi...
Semiclassical molecular dynamics has long been known to be able to calculate accurately vibrational ...
I will present some novel semiclassical methods designed for spectroscopic calculations of high dime...
I will present some novel semiclassical methods designed for spectroscopic IR calculations of high d...
We present a new semiclassical \u201cdivide-and-conquer\u201d approach taylored for quantum dynamics...
We present a new semiclassical \u201cdivide-and-conquer\u201d approach taylored for quantum dynamics...
A new semiclassical "divide-and-conquer" method is presented with the aim of demonstrating that quan...
The accurate prediction of vibrational spectra has become a very challenging task for theoretical me...
The prediction of accurate vibrational frequencies is often necessary for the interpretation of expe...
We extensively describe our recently established "divide-and-conquer" semiclassical method [M. Ceott...
This presentation reports about a quantum approximation for thermal rate constant calculations. The ...
I will present some novel theoretical methods based on semiclassical molecular dynamics and designed...
I will present some novel semiclassical methods for spectroscopic calculations. These approaches can...
The main goal of this doctoral work was to develop theoretical advances of the semiclassical theory ...
Reliable molecular spectroscopy simulations require an accurate quantum description of nuclear motio...
Semiclassical (SC) vibrational spectroscopy has been applied successfully to several molecular syste...
Semiclassical molecular dynamics has long been known to be able to calculate accurately vibrational ...
I will present some novel semiclassical methods designed for spectroscopic calculations of high dime...
I will present some novel semiclassical methods designed for spectroscopic IR calculations of high d...
We present a new semiclassical \u201cdivide-and-conquer\u201d approach taylored for quantum dynamics...
We present a new semiclassical \u201cdivide-and-conquer\u201d approach taylored for quantum dynamics...
A new semiclassical "divide-and-conquer" method is presented with the aim of demonstrating that quan...
The accurate prediction of vibrational spectra has become a very challenging task for theoretical me...
The prediction of accurate vibrational frequencies is often necessary for the interpretation of expe...
We extensively describe our recently established "divide-and-conquer" semiclassical method [M. Ceott...
This presentation reports about a quantum approximation for thermal rate constant calculations. The ...
I will present some novel theoretical methods based on semiclassical molecular dynamics and designed...
I will present some novel semiclassical methods for spectroscopic calculations. These approaches can...
The main goal of this doctoral work was to develop theoretical advances of the semiclassical theory ...
Reliable molecular spectroscopy simulations require an accurate quantum description of nuclear motio...
Semiclassical (SC) vibrational spectroscopy has been applied successfully to several molecular syste...
Semiclassical molecular dynamics has long been known to be able to calculate accurately vibrational ...
I will present some novel semiclassical methods designed for spectroscopic calculations of high dime...
I will present some novel semiclassical methods designed for spectroscopic IR calculations of high d...