O. Morrison, M. Destrade, and B. B. Tripathi. An atlas of the heterogeneous viscoelastic brain with local power-law attenuation synthesised using Prony-seriesActa Biomaterialia, 2023.


  1. Sandhya Chandrasekaran, Francisco Santibanez, Bharat B. Tripathi, Ryan DeRuiter, Ruth Vorder Bruegge, and Gianmarco Pinton. In situ ultrasound imaging of shear shock waves in the porcine brainJournal of Biomechanics, 110913, 2022.
  2. Bharat B. Tripathi, Sandhya Chandrasekaran, and Gianmarco Pinton. Super-resolved shear shock focusing in the human head. Brain Multiphysics, 2, 100033, 2021.
  3. Sandhya Chandrasekaran, Bharat B. Tripathi, David Espı́ndola, and Gianmarco Pinton. Modeling ultrasound propagation in the moving brain: applications to shear shock waves and traumatic brain injury. IEEE Trans. Ultras., Ferr. Freq. Cont., 68(1), 201-212, 2021.
  4. Bharat B. Tripathi, David Espindola, and Gianmarco F. Pinton. Modeling and Simulations of Two Dimensional Propagation of Shear Shock Waves in Relaxing Soft Solids, J. Comput. Phys., 395: 205-222, 2019.
  5. Bharat B. Tripathi, David Espindola, and Gianmarco F. Pinton. Piecewise parabolic method for propagation of shear shock waves in relaxing soft solids: one dimensional case, Int. J. Numer. Meth. Biomed. Engg. 35(5):e3187, 2019.
  6. Bharat B. Tripathi, Sambandam Baskar, François Coulouvrat, and Régis Marchiano. Numerical observation of secondary Mach stem in weak acoustic shock reflection, J. Acoust. Soc. Ameri.-Exp. Lett., 144(2):EL125-EL130, 2018.
  7. Bharat B. Tripathi, Adrian Luca, Sambandam Baskar, François Coulouvrat, and Régis Marchiano. Element Centered Smooth Artificial Viscosity in Discontinuous Galerkin Method for Propagation of Acoustic Shock Waves on Unstructured Meshes, J. Comput. Phys., 366: 298-319, 2018.
  8. B. B. Tripathi, D. Espindola, and G. F. Pinton. Piecewise Parabolic Method for Simulating One-Dimensional Shear Shock Wave Propagation in Tissue-mimicking Phantoms, Shock Waves, 27(6): 879–888, 2017.