Difference between revisions of "Tutorial-v.1.0.0"

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taking acetylene (C2H2) molecule as an example.
 
taking acetylene (C2H2) molecule as an example.
 
We assume that atomic positions of a molecule to be calculated are known (use the measured geometry, or prepare by other calculations).
 
We assume that atomic positions of a molecule to be calculated are known (use the measured geometry, or prepare by other calculations).
A sample input file is prepared ([[C2H2_gs_v1_0_0.inp|C2H2_gs.inp]], [[File:C2H2_gs_v1_0_0.zip|C2H2_gs_v1_0_0.inp]]).
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You can look at a sample input file, [[C2H2_gs_v1_0_0.inp|C2H2_gs.inp]], or download the sample input file as well as pseudopotential files of Carbon and Hydrogen, [[File:C2H2_gs_v1_0_0.zip|C2H2_gs_v1_0_0.inp]]).
  
  

Revision as of 11:45, 8 November 2017

Getting Started

Welcome! In this tutorial, we explain the use of SALMON from the very beginning, taking a few examples that cover applications of SALMON in several directions. We assume that you are in the computational environment of UNIX/Linux OS. First you need to download and install SALMON in your computational environment. You may find detailed instruction in download-v.1.0.0 and install and Run-v.1.0.0.

As described in Install and Run-v.1.0.0, you are required to prepare at least input file and pseudopotential files to run SALMON. In the following, we present input files for several example calculations. We provide a brief explanation of the namelists that appear in the input files. Pseudopotential files of elements that appear in the example are also attached. We also present main output files and explain what they include.

You can run SALMON at your own environment just getting files from this page. You may also be able to modify the input file reading the explanation of the namelists.

We present 6 samples.

First 3 samples (Sample-1 ~ 3) are for an isolated molecule, acetylene C2H2. If you are interested in learning electron dynamics calculations in isolated systems, please look into these samples. In SALMON, we usually calculate the ground state DFT solution first. This is illustrated in Sample-1. After finishing the ground state calculations, two samples of electron dynamics calculations are prepared. Sample-2 illustrates the calculation of linear optical responses in real time, getting polarizability and photoabsorption of the molecule. [[#Sample-3: Electron dynamics in C2H2 molecule under a pulsed electric field|Sample-3] illustrates the calculation of electron dynamics in the molecule under a pulsed electric field.

Next 2 samples (Sample-4 ~ 5) are for a crystalline silicon. If you are interested in learning electron dynamics calculations in extended periodic systems, please look into these samples. Since the time evolution calculation is much more time consuming than the ground state calculation in extended systems, we recommend to calculate the ground and the time evolution calculations as a single job. Sample-4 illustrates the calculation of linear response properties of crystalline silicon, getting the dielectric function. Sample-5 illustrates the calculation of electron dynamics in the crystalline silicon induced by a pulsed electric field.

The final sample (Sample-6) is for a propagation of a pulsed light in a bulk medium, coupling Maxwell equations for the electromagnetic fields of pulsed light and the electron dynamics in unit cells. This calculation is quite time-consuming and is only possible using massively parallel supercomputers. Sample-6 illustrates the calculation of a pulsed, linearly polarized light irradiating normally on a surface of bulk silicon.

C2H2 (isolated molecules)

Sample-1: Ground state of C2H2 molecule

In this sample, we learn the preparation of the ground state solution of an isolated system such as molecules, taking acetylene (C2H2) molecule as an example. We assume that atomic positions of a molecule to be calculated are known (use the measured geometry, or prepare by other calculations). You can look at a sample input file, C2H2_gs.inp, or download the sample input file as well as pseudopotential files of Carbon and Hydrogen, File:C2H2 gs v1 0 0.zip).


HOMO.pngDns.pngElf.png

Sample-2: Polarizability and photoabsorption of C2H2 molecule

Sample-3: Electron dynamics of C2H2 molecule under a pulsed electric field

Crystalline silicon (periodic solids)

Sample-4: Ground state and dielectric function of crystalline silicon

Sample-5: Ground state and electron dynamics in crystalline silicon under a pulsed electric field

Light propagation in bulk silicon (Maxwell + TDDFT)

Sample-6: Coupled multiscale calculation of electrons and electromagnetic fields in crystalline silicon