[26] R. W. Paddock et al (2024). "Energy gain of wetted-foam implosions with auxiliary heating for inertial fusion studies" Plasma Phys. Control. Fusion 66 025005.

[25] A. Le Saux et al (2023). "Two-dimensional simulations of internal gravity waves in a 5 M_⊙ zero-age-main-sequence model" Monthly Notices of the Royal Astronomical Society 522 (2), 2835-2849.

[24] T. D. Arber, T. Goffrey, C. Ridgers (2023). "Models of thermal conduction and non-local transport of relevance to space physics with insights from laser-plasma theory" Frontiers in Astronomy and Space Sciences 10, 1155124.

[23] I. Baraffe et al (2023). "A study of convective core overshooting as a function of stellar mass based on two-dimensional hydrodynamical simulations" Monthly Notices of the Royal Astronomical Society 519 4.

[22] S. Morris, T. Goffrey, K. Bennett, T. Arber (2022). "Improvements to collisional ionization models for particle-in-cell codes" Physics of Plasmas, 29 12.

[21] D. Barlow et al (2022). "Role of hot electrons in shock ignition constrained by experiment at the National Ignition Facility" Physics of Plasmas, 29 8.

[20] D. Vlaykov et al (2022). "Impact of radial truncation on global 2D hydrodynamic simulations for a Sun-like model" Monthly Notices of the Royal Astronomical Society 514 1.

[19] A. Le Saux et al (2022). "Two-dimensional simulations of solar-like models with artificially enhanced luminosity. II. Impact on internal gravity waves" Astronomy and Astrophysics, 660.

[18] R. Andrassy et al (2022). "Dynamics in a stellar convective layer and its boundary: Comparison of five 3D hydrodynamics codes" Astronomy and Astrophysics, 659 A193.

[17] I. Baraffe et al (2022). "Local heating due to convective overshooting and the solar modelling problem" Astronomy and Astrophysics, 659 A53.

[16] T. Constantino et al (2021). "Suppression of Lithium depletion in young low-mass stars from fast rotation" Astronomy and Astrophysics, 654 A146.

[15] I. Baraffe et al (2021). "Two-dimensional simulations of solar-like models with artificially enhanced luminosity I. Impact on convective penetration" Astronomy and Astrophysics, 654 A126.

[14] R. H. H. Scott et al (2021). "Shock Ignition Laser-Plasma Interactions in Ignition Scale Plasmas" Physical Review Letters, 127 065001.

[13] R. M. G. M. Trines et al (2021). "Laser-assisted propagation of a relativistic electron bunch in air" Plasma Physics and Controlled Fusion, 63 084009.

[12] S. J. Spencer, A. G. Seaton, T. Goffrey and T. D. Arber (2020). "Inflationary stimulated Raman scattering in shock-ignition plasmas" Physics of Plasmas, 27 122705.

[11] M. Murabito, J. Shetye, M. Stangalini, E. Verwichte, T. Arber, I. Ermolli, F. Giorgi, T. Goffrey (2020). "Unveiling the magnetic nature of chromospheric vortices" Astronomy and Astrophysics, 639 A59.

[10] J. Pratt, I. Baraffe , T. Goffrey , C. Geroux, T. Constantino, D. Folini, and R. Walder (2020). "Comparison of 2D and 3D compressible convection in a pre-main sequence star" Astronomy and Astrophysics, 638 A15.

[9] F. Debras, N. Mayne, I. Baraffe, E. Jaupart, P. Mourier, G. Laibe, T. Goffrey and J. Thuburn (2020). "Acceleration of superrotation in simulated hot Jupiter atmospheres" Astronomy and Astrophysics, 633 A2.

[8] F. Debras, N. Mayne, I. Baraffe, T. Goffrey and J. Thuburn (2019). "Eigenvectors, Circulation, and Linear Instabilities for Planetary Science in 3 Dimensions (ECLIPS3D)" Astronomy and Astrophysics, 631 A36.

[7] M. V. Popov, R. Walder, D. Folini, T. Goffrey, I. Baraffe, T. Constantino, C. Geroux, J. Pratt, M. Viallet and R. Käppeli (2019). "A well-balanced scheme for the simulation tool-kit A-MaZe: implementation, tests and first applications to stellar structure" Astronomy and Astrophysics, 630 A129.

[6] I. Baraffe , J. Pratt , T. Goffrey , T. Constantino , D. Folini , M. V. Popov , R. Walder , and M. Viallet (2017). "Lithium Depletion in Solar-like Stars: Effect of Overshooting based on realistic Multi-dimensional Simulations" ApJL, 845, L6.

[5] J. Pratt , I. Baraffe , T. Goffrey , T. Constantino , M. Viallet , M. V. Popov , R. Walder , and D. Folini (2017). "Extreme value statistics for two-dimensional convective penetration in a young low-mass star" Astronomy and Astrophysics, 604, A125.

[4] T. Goffrey , J. Pratt , M. Viallet , I. Baraffe , M. V. Popov , D. Folini , R. Walder , and T. Constantino (2017). "Benchmarking the Multi-dimensional Stellar Implicit Code." Astronomy and Astrophysics, 600, A7.

[3] J. Pratt , I. Baraffe , T. Goffrey , C. Geroux , M. Viallet , T. Constantino , M. V. Popov , D. Folini , and R. Walder (2016). "Boundaries and characteristic dynamics of compressible deep stellar convection in a two-dimensional spherical shell." Astronomy and Astrophysics, 593, A121.

[2] C. Geroux , I. Baraffe , M. Viallet , T. Goffrey , J. Pratt , T. Constantino , D. Folini , M. V. Popov , and R.Walder (2016). "Multi-dimensional structure of accreting young stars." Astronomy and Astrophysics, 588, A85.

[1] M. Viallet , T. Goffrey , I. Baraffe , D. Folini , C. Geroux , M. V. Popov , J. Pratt , and R. Walder (2016). "A Jacobian-free Newton-Krylov method for time-implicit multidimensional hydrodynamics." Astronomy and Astrophysics, 586, A153.