The mrfmsim open-source Python package provides a modular, extendable, and readable architecture for designing, simulating, and analyzing magnetic resonance force microscopy experiments.
Introduces an open-source Python package for designing, simulating, and analyzing magnetic resonance force microscopy experiments.
We present mrfmsim, an open-source Python package that facilitates the design, simulation, and analysis of magnetic resonance force microscopy (MRFM) experiments. MRFM is a scanning-probe technique that detects magnetic resonance from nanoscale ensembles of nuclear or electron spins with a force sensor. Because MRFM experiments are complex and operate at sensitivity limits, numerical simulation is essential for designing experiments and estimating per-spin sensitivity and imaging resolution from measured signals. In this paper, we highlight the challenges of developing MRFM simulations and show that software designed to simulate specific experiments only in a rapidly evolving experimental field can yield erroneous results. The mrfmsim package addresses these challenges by supporting post-definition customization without rewriting the internal model and by employing a plugin system for extending functionality. We show that the package's modular, extendable, and readable architecture improves reproducibility and accelerates development.
Sun et al. (Tue,) reported a other. mrfmsim Python package was evaluated. The mrfmsim open-source Python package provides a modular, extendable, and readable architecture for designing, simulating, and analyzing magnetic resonance force microscopy experiments.
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