RT @eps_tweet: [Full paper on Geodesy] Sagar Masuti & Sylvain Barbot (Published: 23 Novemver 2021) MCMC inversion of the transient and stea…
RT @eps_tweet: [Full paper on Geodesy] Sagar Masuti & Sylvain Barbot (Published: 23 Novemver 2021) MCMC inversion of the transient and stea…
RT @eps_tweet: [Full paper on Geodesy] Sagar Masuti & Sylvain Barbot (Published: 23 Novemver 2021) MCMC inversion of the transient and stea…
RT @eps_tweet: [Full paper on Geodesy] Sagar Masuti & Sylvain Barbot (Published: 23 Novemver 2021) MCMC inversion of the transient and stea…
RT @eps_tweet: [Full paper on Geodesy] Sagar Masuti & Sylvain Barbot (Published: 23 Novemver 2021) MCMC inversion of the transient and stea…
[Full paper on Geodesy] Sagar Masuti & Sylvain Barbot (Published: 23 Novemver 2021) MCMC inversion of the transient and steady-state creep flow law parameters of dunite under dry and wet conditions https://t.co/Jg2qnP2fQn https://t.co/z28NszR3Pl
@sagarmasuti The rheology of the upper mantle impacts postseismic deformation and post-glacial rebound. The steady-state behavior follows a hardening phase called "transient creep". Using laboratory data, we constrain its activation energy and stress power
RT @sagarmasuti: The transient creep of olivine is explained using the nonlinear Burgers' model. We find that the activation energy and str…
RT @sagarmasuti: The transient creep of olivine is explained using the nonlinear Burgers' model. We find that the activation energy and str…
RT @sagarmasuti: The transient creep of olivine is explained using the nonlinear Burgers' model. We find that the activation energy and str…
The transient creep of olivine is explained using the nonlinear Burgers' model. We find that the activation energy and stress exponent of transient creep is smaller than the steady-state creep. @quakephysics https://t.co/9Q154iYLWi