Publications
| Refereed Journal Papers |
| 1. | O’Farrell, C. and Martín , M.P., “Chasing Eddies and Their Wall Signature in DNS Data of Turbulent Boundary Layers,” accepted for publication in Journal of Turbulence, 2009. | |
| 2. |
Priebe, S., Wu, M., and Martín, M.P., “Direct Numerical Simulation of a Reflected Shockwave and Turbulent Boundary Layer Interaction”, AIAA Journal, 47, 5, 2009. |
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3. |
Duan, L. and Martín, M.P., “Procedure to Validate Direct Numerical Simulations of Wall-Bounded Turbulence Including Finite-Rate Reactions”, AIAA Journal, 47, 1, 2009. [PDF (504 KB)]. |
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4. | Ringuette, M.J., Wu, M., and Martín, M.P., “Low Reynolds Number Effects in a Mach 3 Shock Turbulent Boundary Layer interaction,” AIAA Journal, 46, 7, 2008. [PDF (588 KB)]. |
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5. | Taylor, E.M., and Martín, M.P., “Synchronization of Weighted Essentially Non-Oscillatory Methods,” Communications in Computational Physics, 4, 1, 2008. [PDF (192 KB)] |
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6. | Pejaković, D.A., Marschall, J., Duan, L., Martín, M.P., "Nitric Oxide Production from Surface Recombination of Oxygen and Nitrogren Atoms," Journal of Thermophysics and Heat Transfer, 2007. [PDF (273 KB)] |
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7. | Wu, M., and Martín, M.P., "Analysis of Shock Motion in STBLI using Direct Numerical Simulation Data," Journal of Fluid Mechanics, 594, 71–83, 2008. [PDF (1768 KB)] |
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8. | Ringuette, M., Wu, M., Martín, M.P., "Coherent Structures in DNS of Turbulent Boundary Layers at Mach 3," Journal of Fluid Mechanics, 594, 59–69, 2008. [PDF (3113 KB)] |
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9. | Wu, M., and Martín, M.P., “Direct Numerical Simulation of Shockwave and Turbulent Boundary Layer Interaction over a Compression Ramp,” AIAA Journal, 45, 4, 879–889, 2007. [PDF (13543 KB)] |
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10. | Martín, M.P., “DNS of Hypersonic Turbulent Boundary Layers. Part I: Initialization and Comparison with Experiments,” Journal of Fluid Mechanics, 570, 347–364, 2007. [PDF (257 KB)] |
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11. | Taylor , E.M., Wu, M., and Martín, M.P., “Optimization of Nonlinear Error for Weighted Non-Oscillatory Methods in Direct Numerical Simulations of Compressible Turbulence,” Journal of Computational Physics, 223, 384–397, 2007. [PDF (347 KB)] |
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12. | Taylor, E.M. and Martín, M.P., “Stencil Adaptation Properties of a WENO Scheme in Direct Numerical Simulations of Compressible Turbulence,” Journal of Scientific Computing, 30, 533–554, 2007. [PDF (356 KB)] |
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13. | Martín, M.P., Taylor, E.M., Wu, M., and Weirs, V.G., “A Bandwidth-Optimized WENO Scheme for the Direct Numerical Simulation of Compressible Turbulence,” Journal of Computational Physics, 220, 1, 270–289, 2006. [PDF (755 KB)] |
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14. | Martín, M.P. and Candler, G.V., “A Parallel Implicit Method for the Direct Numerical Simulation of Compressible Flows,” Journal of Computational Physics, 215, 1, 153–171, 2006. [PDF (336 KB)] |
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15. | Xu, S. and Martín, M.P., “Assessment of inflow Boundary Conditions for Compressible Turbulent Boundary Layers,” Physics of Fluids, 16, 7, 2623–2639, 2004. [PDF (345 KB)] |
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16. | Martín, M.P., Piomelli, U., and Candler, G.V., “Subgrid-Scale Models for Compressible LES,” Theoretical and Computational Fluid Dynamics, 13, 5, 361–376, 2000. [PDF (176 KB)] |
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17. | Martín, M.P. and Candler, G.V., “Subgrid-Scale Model for the Temperature Fluctuations in Reacting Hypersonic Turbulent Flows,” Physics of Fluids, 11, 9, 2765–2771, 1999. [PDF (176 KB)] |
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18. | Martín, M.P. and Candler, G.V., “Effect of Chemical Reactions on Decaying Isotropic Turbulence,” Physics of Fluids, 10, 7, 1715–1724, 1998. [PDF (214 KB)] |