cpp/README.md

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# Download
1. Clone repository with `git clone https://gitea.pkm.physik.tu-darmstadt.de/NMRRWSims/cpp.git`
2. After download, change permissions of build.sh in terminal with `chmod a+x build.sh`
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# Build
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# Running
## Command line
To run a random walk simulation Execute `rwsim` in the command line with
```bash
./rwsim /path/to/config.txt MotionModel DistributionModel --ste --spectrum -ARG1 1 -ARG2 2
```
It needs three positional arguments: the path to your basic configuration file (see below) and the names of the motional model and of the distribution of correlation times.
Set the optional arguments `--ste` and/or `--spectrum` to create Stimulated Echos or normal echo spectra, respectively.
You can overwrite any parameter given in the configuration file by adding it as optional argument with a numerical value, e.g. `-TAU 1e-3` for a correlation time of 1 ms.
## Configuration file `config.txt`
Change the values of delta, eta, mixing times, echo times,... in this file. If a paramter is defined multiple times, only the last one is used.
### General parameter
This list of general parameter are necessary for all simulations:
| Parameter | Description |
|------------|----------------------------|
| num_walker | Number of trajectories |
| delta | Anisotropy parameter in Hz |
| eta | Asymmetry parameter |
### Distribution of correlation times
Two distributions are available: A delta distribution `Delta`, i.e. the same correlation time for every walker, and a log-normal distribution `LogNormal`.
+ Parameters for delta distribution `Delta`
| Parameter | Description |
|-----------|-----------------------|
| tau | Jump time in s |
+ Parameters for log-normal distribution `LogNormal`
| Parameter | Description |
|-----------|--------------------------------------------|
| tau | Maximum jump time of the distribution in s |
| sigma | Standard deviation of the distribution |
### Motion models
Four different jump models are implemented: Isotropic random jump `RandomJump`, isotropic jump with a certain angle, isotropic jump with a bimodal distribution of angles, and a tetrahedral jump `TetrahedralJump`.
+ Isotropic random jump `RandomJump` does not have additional parameters.
+ Tetrahedral jump `TetrahedralJump` does not have additional parameters.
+ Parameters for isotropic jump by an angle `IsotropicAngle`
| Parameter | Description |
|-----------|----------------------|
| angle | Jump angle in degree |
+ Parameters for isotropic jump with bimodal angle distribution `BimodalAngle`
| Parameter | Description |
|--------------|--------------------------------------|
| angle1 | First jump angle in degree |
| angle2 | Second jump angle in degree |
| probability1 | Probality that jump has angle1 (0-1) |
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# Running
**Because filenames are always the same, previous simulations and results are overwritten!**
1. Execute `build.sh` (in terminal with `./build.sh`). It compiles the source code and executes test.py