Dr Bishakhdatta Gayen

Ph.D. Mechanical and Aerospace Engineering, U. C. San Diego, USA (2012)
ARC Future Fellow and Senior Lecturer (University of Melb)

Positions Held:

Senior Lecturer (University of Melbourne)                                                                         Feb'19-present

ARC Future Fellow                                                                                                                 Feb'19-present

RJL Hawke Fellow (Australian Antarctic Division)                                                            July’17 – Feb'19

CoE Postdoctoral Research Fellow                                                                                      March‘17 –June’17  

ARC (DECRA) & ANU Research Fellow                                                                                Jan ‘14 – Feb ‘17

Postdoctoral  Research Fellow                                                                                            April ‘12 – Dec’ 13


  • Future  Fellowship, Australian Research Council                                                                                         2018
  • RJL Hawke Fellowship, Australian Antarctic Division                                                                                 2017
  • Discovery Early Research Career Award (DECRA)                                                                                       2013
  • Andreas Acrivos best Dissertation Award in Fluid Dynamics (American Physical Society)                  2013
  • Outstanding Graduate Student Award, MAE, UCSD                                                                                     2011
  • Graduate research Fellowship from University of California                                                                      2007

Competitive Research Grants

  • Project ID: AAS 4422 (Australian Antarctic Division 2017) A new approach to ice melting rates: direct numerical simulation. Amount funded:  $192,000.00.
  • Project ID: LE150100089 (ARC LIEF 2015) CI: Pitman, A (Gayen, B is a Co-CI among a team) Connecting big data with high performance computing for climate system science. Amount funded:  $490,000.00.
  • Project ID: AAS 4287 (Australian Antarctic Division 2015) PI: Galton-Fenzi, B  (Gayen, B is a Co-CI among a team) Ocean forced evolution of the Antarctic Ice Sheet.  Amount   funded: $ 213,000.00.
  • Project ID: DE140100089 (ARC DE 2014) CI: Gayen, B. A new understanding of Antarctic ice melting. Amount funded: $371,151.0 (2014-2016).
  • Project ID: DP140103706 (ARC DP 2014) CI: Griffiths, R. W. & Gayen, B. Interacting processes for Southern Ocean circulation. Amount funded: $405,000.0 (2014-2016).
  • Project ID: ANU Early Career Research travel grant (2013) CI: Gayen, B.  Amount funded: $2100.00.

Personal website


See list of publications in scholar google

Publication with my student is star marked.

24.* T. Sohail, B. Gayen and A. McC. Hogg (2018). Convection enhances mixing in the Southern Ocean, Geophys. Res. Lett., In press https://doi.org/10.1029/2018GL077711.

23.* M. Rosevear, B. Gayen and R. W. Griffiths (2017) Turbulent horizontal convection under spatially periodic forcing: a regime governed by interior inertia. J. Fluid Mech., 831, 491-523

22.* C. Vreugdenhil,  R. W. Griffiths and B. Gayen (2017)
Geostrophic and chimney regime in the rotationg horizontal convection with imposed heat flux
J. Geophys Res. Oceans  823, 57-99

21.* C. Vreugdenhil, B. Gayen and  R. W. Griffiths (2016)
Mixing and dissipation in a geostrophic buoyancy-driven circulation
J. Geophys Res. Oceans  121 (8), 6076-6091

20. B. Gayen, R. W. Griffiths and R. C. Kerr (2016)
Simulation of convection at a vertical ice face dissolving into saline water
Journal of Fluid Mechanics, 798, 284-.298

19. R. W. Griffiths and B Gayen (2015)
Turbulent convection insights from small-Scale thermal forcing with zero net heat flux at a horizontal boundary. Physical Review LettersPhys. Rev. Lett. 115, 204301

18.I. Rossa, A. McC. Hogg, A. E. Kiss and B. Gayen  (2015)
Topographc influence on sub-mesoscale dynamics in the Southern Ocean,  Geophysical  Research Lett. doi: 10.1002/2014GL062720

17.B. Gayen & S. Sarkar (2014)
PSI to turbulence during internal wave beam refraction through the upper ocean pycnocline,  Geophysical  Research Lett. 41, 8953–8960, doi: 10.1002/2014GL061226

16.B. Gayen, R. W. Griffiths and G. O. Hughes(2014)
Stability transitions and turbulence in horizontal convection, Journal of Fluid Mechanics, 751, 698-724.

15.B. Gayen, G. O. Hughes and R. W. Griffiths, (2013)
Completing the mechanical energy pathways in turbulent Rayleigh-Benard convection
Phys. Rev. Lett. 111, 124301

14.B. Gayen & S. Sarkar (2013)
Degradation of an internal wave beam by parametric subharmonic instability in an upper ocean pycnocline 
J. Geophys Res. Oceans, 118, 4689–4698, doi:10.1002/jgrc.20321.

13. G. O. Hughes,B. Gayenand R. W. Griffiths(2013)
Available Potential Energy in Rayleigh-Benard Convection, Journal of Fluid Mechanics, 729, R2, 1-10

12. R. W. Griffiths, G. O. Hughes and B. Gayen (2013)

Horizontal convection dynamics: insights from transient adjustment Journal of Fluid Mechanics, 726, 559-595 

11.B. Gayen, R. W. Griffiths, G. O. Hughes and J. A. Saenz (2013)
Energetics of horizontal convection,  Journal of Fluid Mechanics, 716, pp-716 R10-1-716 R10-11

10.  V. Chalamalla, B. Gayen, A. Scotti & S. Sarkar (2013)
Near critical reflection of internal gravity waves on a sloping boundaryJournal of Fluid Mechanics 729, 47-68

9.N. R. Rapaka, B. Gayen & S. Sarkar (2013)
Direct and large eddy simulations of conversion to internal tides at a model ridge
Journal of Fluid Mechanics, 715 pp 181 - 209

8. B. Gayen & S. Sarkar (2011)
Negative turbulent production during flow reversal in a stratified oscillating boundary layer on a sloping bottom p-1-4
Phys. Fluids Lett. 23, 101703.

7. B. Gayen & S. Sarkar (2011)
Boundary mixing by density overturns in an internal tidal beam   Geophysical Research Lett. VOL. 38, L14608.

6. B. Gayen & M. Alam (2011)
Effect of Coulomb friction on orientational correlation and velocity distribution functions in a sheared dilute granular gas.    
Phys.  Rev. E., 84, 021304.

5.B. Gayen & S. Sarkar (2011)
Direct and large eddy simulations of internal tide generation at a near critical slope
Journal of Fluid Mechanics 681: 48-79.

4. B. Gayen and S. Sarkar (2010)
Turbulence during the generation of internal tide on a critical slope.
Phys.  Rev. Lett., 104, p. 218502.

3. B. Gayen and S. Sarkar and J. R. Taylor (2010)
LES of a stratified boundary layer under an oscillatory current.
Journal of Fluid Mechanics, 643, p. 233--266.

2. B. Gayen & M. Alam (2008)
Orientational Correlation and Velocity Distributions in Uniform Shear Flow of a Dilute Granular Gas.
Phys. Rev. Lett., 100, p. 068002.

1. B. Gayen & M. Alam (2006)
Algebraic and exponential instabilities in a sheared micropolar granular fluid.
Journal of Fluid Mechanics 567, p. 195--233.

PHY 3034: Physics of Fluid

Supervised students