Dr Sophie Calabretto

“Remember you’re a professional, so always wear shoes!” — Professor Jim Denier

Dr Sophie Calabretto

Senior Lecturer in Applied Mathematics

Department of Mathematics and Statistics

Macquarie University


Honorary Associate Professor in

Applied Mathematics

School of Mathematics and Actuarial Science

Honorary Associate Professor,

ACE Research Group

School of Engineering

University of Leicester


Room 6.25, 12 Wally’s Walk

Macquarie University NSW 2109

Australia


contact info:

+61 2 9850 8950

sophie.calabretto{at}mq.edu.au

Publications.

  • Calabretto SAW, The spatial and temporal development of the flow due to an impulsively rotated cone (in preparation).
  • Denier JP, SAW Calabretto, The effect of crossflow on Görtler vortices in wall-bounded jets (in preparation).
  • Calabretto SAW, Beron-Vera FJ, Haller G, Extraction of submesoscale eddies (in preparation),
  • Calabretto SAW, Denier JP, Roughness-induced transition in the flow due to a rotating sphere (submitted).
  • Calabretto SAW, Denier JP, Levy B, An experimental and computational study of the post-collisional flow induced by an impulsively rotated sphere. Journal of Fluid Mechanics 881, 772−793.
  • Calabretto SAW, Denier JP 2019 Instabilities in the flow around an impulsively rotated sphere. Physical Review Fluids 4, 073904.
  • Calabretto SAW, Denier JP, Mattner TW 2018 The transient development of the flow in an impulsively rotated annular container. Theoretical and Computational Fluid Dynamics 32, 821−845.
  • Calabretto SAW, Denier JP, Mattner TW 2016 The flow external to a rotating torus. Theoretical and Computational Fluid Dynamics 30, 295−312.
  • Calabretto SAW, Levy B, Denier JP, Mattner TW 2015 The unsteady flow due to an impulsively rotated sphere.  Proceedings of the Royal Society A 471, 20150299.
  • Calabretto SAW, Mattner TW, Denier JP 2015 The effect of seam imperfections on the unsteady flow within a fluid-filled torus. Journal of Fluid Mechanics 767, 240−253.


Theses.

  • Calabretto SAW 2015 Instability and transition in unsteady rotating flows. Doctoral Thesis. University of Auckland.
  • Calabretto S 2011 Mathematical models of neuron firing. Honours Thesis. The University of Adelaide.

© 2020 Sophie Calabretto