Publications of Dhawal Buaria

Journal Article (12)

1.
Journal Article
Buaria, D.; Sreenivasan, K. R.: Intermittency of turbulent velocity and scalar fields using three-dimensional local averaging. Physical Review Fluids 7, L072601 (2022)
2.
Journal Article
Buaria, D.; Pumir, A.: Vorticity-Strain Rate Dynamics and the Smallest Scales of Turbulence. Physical Review Letters 128, 094501 (2022)
3.
Journal Article
Buaria, D.; Pumir, A.; Bodenschatz, E.: Generation of intense dissipation in high Reynolds number turbulence. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 380, 2218 (2022)
4.
Journal Article
Buaria, D.; Pumir, A.: Nonlocal amplification of intense vorticity in turbulent flows. Physical Review Research 3, L042020 (2021)
5.
Journal Article
Buaria, D.; Bodenschatz, E.; Pumir, A.: Vortex stretching and enstrophy production in high Reynolds number turbulence. Physical Review Fluids 5, 104602 (2020)
6.
Journal Article
Buaria, D.; Sreenivasan, K. R.: Dissipation range of the energy spectrum in high Reynolds number turbulence. Physical Review Fluids 5, 092601 (2020)
7.
Journal Article
Buaria, D.; Pumir, A.; Feraco, F.; Marino, R.; Pouquet, A.; Rosenberg, D.; Primavera, L.: Single-particle Lagrangian statistics from direct numerical simulations of rotating-stratified turbulence. Physical Review Fluids 5, 064801 (2020)
8.
Journal Article
Buaria, D.; Pumir, A.; Bodenschatz, E.: Self-attenuation of extreme events in Navier–Stokes turbulence. Nature Communications 11, 5852, pp. 1 - 7 (2020)
9.
Journal Article
Buaria, D.; Pumir, A.; Bodenschatz, E.; Yeung, P. K.: Extreme velocity gradients in turbulent flows. New Journal of Physics 21, 043004 (2019)
10.
Journal Article
Clay, M. P.; Buaria, D.; Yeung, P. K.; Gotoh, T.: GPU acceleration of a petascale application for turbulent mixing at high Schmidt number using OpenMP 4.5. Computer Physics Communications 228, pp. 100 - 114 (2018)
11.
Journal Article
Buaria, D.; Yeung, P. K.: A highly scalable particle tracking algorithm using partitioned global address space (PGAS) programming for extreme-scale turbulence simulations. Computer Physics Communications 221, pp. 246 - 258 (2017)
12.
Journal Article
Clay, M. P.; Buaria, D.; Gotoh, T.; Yeung, P. K.: A dual communicator and dual grid-resolution algorithm for petascale simulations of turbulent mixing at high Schmidt number. Computer Physics Communications 219, pp. 313 - 328 (2017)
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