International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a python library that computes temperature-dependent effective 2nd and 3rd order interatomic force constants in crystals, including anharmonic effects. QSCAILD's approach is based on the quantum statistics of a harmonic model. The program requires the forces acting on displaced atoms of a solid as an input, which can be obtained from an external code based on density functional theory, or any other calculator. This article describes QSCAILD's implementation, clarifies its connections to other methods, and illustrates its use in the case of the SrTiO3 cubic perovskite structure
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a ...
International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a ...
International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a ...
The Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a python library that co...
The efficient and accurate calculation of how ionic quantum and thermal fluctuations impact the free...
International audienceThe self-consistent harmonic approximation is an effective harmonic theory to ...
The self-consistent harmonic approximation is an effective harmonic theory to calculate the free ene...
[EN] The efficient and accurate calculation of how ionic quantum and thermal fluctuations impact th...
The self-consistent harmonic approximation (SCHA) allows the computation of free energy of anharmon...
Theory and computation play an increasingly important role in the field of mineral physics by allowi...
A systematic method is presented for constructing effective Hamiltonians for general phonon-related ...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a ...
International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a ...
International audienceThe Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a ...
The Quantum Self-Consistent Ab-Initio Lattice Dynamics package (QSCAILD) is a python library that co...
The efficient and accurate calculation of how ionic quantum and thermal fluctuations impact the free...
International audienceThe self-consistent harmonic approximation is an effective harmonic theory to ...
The self-consistent harmonic approximation is an effective harmonic theory to calculate the free ene...
[EN] The efficient and accurate calculation of how ionic quantum and thermal fluctuations impact th...
The self-consistent harmonic approximation (SCHA) allows the computation of free energy of anharmon...
Theory and computation play an increasingly important role in the field of mineral physics by allowi...
A systematic method is presented for constructing effective Hamiltonians for general phonon-related ...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...
International audienceThe quantum thermal bath (QTB) method has been recently developed to account f...