Theory & Simulation

The tools available allow to address a wide spectrum of systems including bulk, surfaces, interfaces, heterostructures, molecules, or clusters - albeit with increasing computational costs depending on the system sizes considered. 

The Theory & Simulation Installation is open to experimental users with no experience in modelling and simulation, as well as to experimental and computational users with experience in the field. Access to the installation may be remote or on-site, depending on the needs of the proposed project. 

Projects from experimental users are expected to request assistance on measurements performed either in combination with another NFFA installation or outside the NFFA facility. In the latter case the computational project should address recent experimental results on nanoscience and may lead to novel experiments.
Projects from theory users are expected to request assistance on multi-scale/multi-physics simulations involving at least two independent computational methods (e.g. electronic ground-state and excited-state approaches, molecular dynamics and electronic structure, structural and spectroscopic properties ...). 
Preference will be given to joint experimental-theory projects combining more than one NFFA installation.

The computational codes and scientific packages available at the T&S installation include:

Quantum Espresso
SIESTA
FLEUR
Yambo
Wannier90
EXC
Aiida
lammps"

THEO & SIM View all

TP TRANSPORT PROPERTIES
This technique offers the possibility of modeling electronic quantum charge transport (Green’s function Landauer formalism), spin-dependent conductivities for spintronics applications.
AMM ATOMS AND MOLECULES IN MOTION
This technique offers the possibility of performing molecular dynamics at finite temperature via DFT calculations as well as empirical potentials, modeling temperature activated processes (NEB and metadynamics), simulating complex environments via QM/MM and implicit solvation models.
ESP EXCITED-STATE PROPERTIES
This techniques offers the possibility of modeling excited state properties in static conditions (performing neutral and charged electronic excitations), as well as out-of-equilibrium / dynamical properties, making contact with both time- and space-resolved experiments.
MP MAGNETIC PROPERTIES
This techniques offers the possibility of modeling: (a) ground-state properties of magnetic systems; (b) Spin-orbit related properties.
SGSEP Structural and ground-state electronic properties
This technique offers the possibility of simulating structural and electronic properties based on the electronic ground state, including electronic charge analysis, energetics of formation, structural and vibrational properties; IR, Raman, EPR, NMR, core-level XAS & XPS, STM & AFM.
MULTI-SCALE MULTI-SCALE PROCESS SIMULATION FROM THE MACRO TO THE ATOMIC SCALE
This simulation tools assists material and (meso-nano) systems’ design by Virtual Design of Experiments using multi-scale simulations of processes. Within a multiscale perspective, we support the experimental development simulating the kinetic of several processes, using molecular dynamics and internally developed atomistic Kinetic Monte Carlo.