Skip to content

mivade/IonMD

Repository files navigation

IonMD

Note

The current master branch is undergoing a large overhaul to modernize the C++ code and doesn't actually do much of anything yet. See the thesis tag for a version that nominally worked before.

Overview

IonMD is a molecular dynamics (MD) simulation of ions in a linear Paul trap. The implmentation uses the leapfrog integration technique and Newtonian equations of motion to clasically simulate the forces on individual ions. Methods are largely based on the MD simulation described in [1] and [2].

Model Description

IonMD simulates ions in a linear Paul trap by solving each ion's classical equation of motion \ddot{\vec{x}}_i = \vec{F}_i/m_i where the force on each ion is the sum of forces due to the trapping potential, cooling lasers, Coulomb repulsion, and stochastic processes such as background gas collisions. In other words,

\vec{F}_i = \vec{F}_{T,i} + \vec{F}_{L,i} + \vec{F}_{C,i} + \vec{F}_{S,i}

Building

Warning

This section is a work in progress.

To build, Armadillo and CMake are required. If using Anaconda or Miniconda, these can be installed with:

$ conda install cmake
$ conda install -c conda-forge armadillo

Note

The Armadillo package on conda-forge does not include Windows binaries. Instead, download and install binaries from Armadillo website.

Building the Python bindings requires pybind11 and scikit-build. The former is included here as a git submodule:

$ git submodule init && git submodule update

The latter is installed with pip:

$ pip install scikit-built

To build without Python bindings:

$ mkdir -p build && cd build && cmake .. && cmake --build .

Usage

See demo/demo.cpp.

Authors

IonMD is principally written by Michael V. DePalatis with some optimization enhancements by Ben Land.

License

IonMD is freely distributable under the terms of the GNU GPL version 3 (see COPYING for details).

References

[1]C.B. Zhang et al., Phys. Rev. A 76, 012719 (2007).
[2]C.B. Zhang, Production and Sympathetic Cooling of Complex Molecular Ions, PhD thesis, Heinrich-Heine-Universität Düsseldorf (2008).

About

Ion trap molecular dynamics simulations

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages