Jørgen S. Dokken is a Senior Research Engineer in the Department of Scientific Computing and Numerical Analysis at Simula Research Laboratory, Oslo, Norway. He is an active developer and forum administrator (2019-) of the FEniCS Project and has been a member of the FEniCS Project Steering Council since 2022.

Henrik Nicolay Finsberg is Chief Research Engineer in the Department of Computational Physiology at Simula Research Laboratory, Oslo, Norway. His work comprises various aspects of cardiac modeling including mechanics and electrophysiology, and he is the maintainer of several software projects that use FEniCS for modeling and simulation of the heart.

Jack S. Hale is a Research Scientist at the University of Luxembourg, Luxembourg. His research focuses on fundamental and applied developments in numerical methods and scientific computing. He is a member of the FEniCS Project Steering Council (2016-)and an active maintainer and contributor to the project.

Marie E. Rognes is Chief Research Scientist in Scientific Computing and Numerical Analysis at Simula Research Laboratory, Oslo, Norway, focusing on fundamental research in computational mathematics and brain multiphysics. She is an author of one and editor of additional two previous Simula SpringerBriefs on Computing.

Matthew W. Scroggs is a Research Software Engineer in the Advanced Research Computing Centre at University College London. His research focuses on numerical methods and their efficient implementation. He is a member of the FEniCS Project Steering Council (2022-) and an active developer of various components of FEniCS.

Adaptive Finite Element Methods Based on Flux Equilibration Using FEniCSx.- The FEniCS Project on AWS Graviton3.- cuDOLFINx: A CUDA Extension for FEniCSx.- Implementation of the Lam–Bremhorst k-9 Turbulence Model in FEniCS.- Growth and Remodelling Package in FEniCSx.- Blood Flow in the Beating Heart: Coupling Fluid Dynamics to Reduced Wall and Circulation Models for Data-Driven Cardiac FSI.- Estimation of Optimal Inlet Boundary Conditions for Blood Flow Assessment in Abdominal Aortic Aneurysm Using Variational Data Assimilation.- Thermal Analysis of Brake Discs in Rail Vehicles.- Function Scaling and Adaptive Boundary Condition Throttling for Convergence Control in Highly Nonlinear Poisson–Boltzmann Electrolyte Models.