Citation: Bj. Delarue et Sb. Pope, CALCULATIONS OF SUBSONIC AND SUPERSONIC TURBULENT REACTING MIXING LAYERS USING PROBABILITY DENSITY-FUNCTION METHODS, Physics of fluids, 10(2), 1998, pp. 487-498
Citation: Pj. Colucci et al., FILTERED DENSITY-FUNCTION FOR LARGE-EDDY SIMULATION OF TURBULENT REACTING FLOWS, Physics of fluids, 10(2), 1998, pp. 499-515
Citation: Mr. Overholt et Sb. Pope, A DETERMINISTIC FORCING SCHEME FOR DIRECT NUMERICAL SIMULATIONS OF TURBULENCE, Computers & fluids, 27(1), 1998, pp. 11-28
Citation: I. Thompson et al., AUA PROSTATE-CANCER CLINICAL GUIDELINES HAVE A SIGNIFICANT IMPACT UPON PATIENT-CARE IN A NATIONAL STUDY POPULATION, The Journal of urology, 159(5), 1998, pp. 987-987
Citation: Sb. Pope, THE VANISHING EFFECT OF MOLECULAR DIFFUSIVITY ON TURBULENT DISPERSION- IMPLICATIONS FOR TURBULENT MIXING AND THE SCALAR FLUX, Journal of Fluid Mechanics, 359, 1998, pp. 299-312
Citation: Td. Dreeben et Sb. Pope, PROBABILITY DENSITY-FUNCTION MONTE-CARLO SIMULATION OF NEAR-WALL TURBULENT FLOWS, Journal of Fluid Mechanics, 357, 1998, pp. 141-166
Citation: S. Subramaniam et Sb. Pope, A MIXING MODEL FOR TURBULENT REACTIVE FLOWS BASED ON EUCLIDEAN MINIMUM SPANNING-TREES, Combustion and flame, 115(4), 1998, pp. 487-514
Citation: B. Yang et Sb. Pope, AN INVESTIGATION OF THE ACCURACY OF MANIFOLD METHODS AND SPLITTING SCHEMES IN THE COMPUTATIONAL IMPLEMENTATION OF COMBUSTION CHEMISTRY, Combustion and flame, 112(1-2), 1998, pp. 16-32
Citation: B. Yang et Sb. Pope, TREATING CHEMISTRY IN COMBUSTION WITH DETAILED MECHANISMS - IN-SITU ADAPTIVE TABULATION IN PRINCIPAL DIRECTIONS PREMIXED COMBUSTION, Combustion and flame, 112(1-2), 1998, pp. 85-112
Citation: Sb. Pope, COMPUTATIONALLY EFFICIENT IMPLEMENTATION OF COMBUSTION CHEMISTRY USING IN-SITU ADAPTIVE TABULATION, COMBUSTION THEORY AND MODELLING, 1(1), 1997, pp. 41-63
Citation: Pr. Vanslooten et Sb. Pope, PDF MODELING FOR INHOMOGENEOUS TURBULENCE WITH EXACT REPRESENTATION OF RAPID DISTORTIONS, Physics of fluids, 9(4), 1997, pp. 1085-1105
Citation: Td. Dreeben et Sb. Pope, PROBABILITY DENSITY-FUNCTION AND REYNOLDS-STRESS MODELING OF NEAR-WALL TURBULENT FLOWS, Physics of fluids, 9(1), 1997, pp. 154-163
Citation: Wc. Welton et Sb. Pope, PDF MODEL-CALCULATIONS OF COMPRESSIBLE TURBULENT FLOWS USING SMOOTHEDPARTICLE HYDRODYNAMICS, Journal of computational physics, 134(1), 1997, pp. 150-168
Citation: Ms. Anand et al., CALCULATIONS OF SWIRL COMBUSTORS USING JOINT VELOCITY SCALAR PROBABILITY DENSITY-FUNCTION METHOD, AIAA journal, 35(7), 1997, pp. 1143-1150
Citation: Mr. Overholt et Sb. Pope, DIRECT NUMERICAL-SIMULATION OF A PASSIVE SCALAR WITH IMPOSED MEAN GRADIENT IN ISOTROPIC TURBULENCE, Physics of fluids, 8(11), 1996, pp. 3128-3148
Citation: Sb. Pope, PARTICLE METHOD FOR TURBULENT FLOWS - INTEGRATION OF STOCHASTIC-MODELEQUATIONS, Journal of computational physics, 117(2), 1995, pp. 332-349
Citation: At. Norris et Sb. Pope, MODELING OF EXTINCTION IN TURBULENT-DIFFUSION FLAMES BY THE VELOCITY-DISSIPATION-COMPOSITION PDF METHOD, Combustion and flame, 100(1-2), 1995, pp. 211-220
Citation: Sb. Pope, ON THE RELATIONSHIP BETWEEN STOCHASTIC LAGRANGIAN MODELS OF TURBULENCE AND 2ND-MOMENT CLOSURES, Physics of fluids, 6(2), 1994, pp. 973-985
Citation: Pk. Yeung et Sb. Pope, DIFFERENTIAL DIFFUSION OF PASSIVE SCALARS IN ISOTROPIC TURBULENCE, Physics of fluids. A, Fluid dynamics, 5(10), 1993, pp. 2467-2478