Interactive molecular dynamics in virtual reality from quantum chemistry to drug binding: An open-source multi-person framework
Michael O'Connor, Simon J. Bennie, Helen M. Deeks, Alexander, Jamieson-Binnie, Alex J. Jones, Robin J. Shannon, Rebecca Walters, Thomas J., Mitchell, Adrian J. Mulholland, and David R. Glowacki

TL;DR
This paper introduces 'Narupa', an open-source multi-user virtual reality framework for interactive molecular dynamics, enabling real-time visualization and manipulation of molecular structures to advance research, education, and molecular engineering.
Contribution
The paper presents 'Narupa', a novel open-source multi-person VR platform for interactive molecular dynamics, expanding immersive technology applications in molecular sciences.
Findings
Enables collaborative real-time molecular manipulation in VR
Facilitates training machine learning models on reactive PESs
Supports biomolecular and material dynamics research
Abstract
As molecular scientists have made progress in their ability to engineer nano-scale molecular structure, we are facing new challenges in our ability to engineer molecular dynamics (MD) and flexibility. Dynamics at the molecular scale differs from the familiar mechanics of everyday objects, because it involves a complicated, highly correlated, and three-dimensional many-body dynamical choreography which is often non-intuitive even for highly trained researchers. We recently described how interactive molecular dynamics in virtual reality (iMD-VR) can help to meet this challenge, enabling researchers to manipulate real-time MD simulations of flexible structures in 3D. In this article, we outline efforts to extend immersive technologies to the molecular sciences, and we introduce 'Narupa', a flexible, open-source, multi-person iMD-VR software framework which enables groups of researchers to…
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