Turbulence and Combustion Group 
Books




Papers


Papers under review or in press


Papers 2014


R.R. Tirunagari, S.B. Pope (2017) ``Characterization of extinction/reignition events in turbulent premixed counterflow flames using strainrate analysis'', Proceedings of the Combustion Institute, 36, 19191927. 

R.R. Tirunagari, M.W.A. Pettit, A.M. Kempf, S.B. Pope (2017) ``A Simple Approach for Specifying Velocity Inflow Boundary Conditions in Simulations of Turbulent OpposedJet Flows'', Flow, Turbulence and Combustion, 98, 131153. 

R.R. Tirunagari, S.B. Pope (2016) ``LES/PDF for Premixed Combustion in the DNS Limit'', Combustion Theory and Modelling , 20, 834865. 

R.R. Tirunagari, S.B. Pope (2016) ``An Investigation of Turbulent Premixed Counterflow Flames using LargeEddy Simulations and Probability Density Function Methods'', Combustion and Flame , 166, 229242. 

P.P. Popov, H. Wang, S.B. Pope (2015) ``Specific Volume Coupling and Convergence Properties in Hybrid Particle/Finite Volume Algorithms for Turbulent Reactive Flows'', Journal of Computational Physics , 294, 110126. 

Y. Liang, S.B. Pope, P. Pepiot (2015) ``A PrePartitioned Adaptive Chemistry Methodology for the Efficient Implementation of Combustion Chemistry in Particle PDF Methods'', Combustion and Flame , 162, 32363253. 

P.P. Popov, S.B. Pope (2014) ``Large Eddy Simulation/Probability Density Function Simulations of Bluff Body Stabilized Flames'', Combustion and Flame , 161, 31003133. 

JP. Minier, S. Chibbaro, S.B. Pope (2014) ``Guidelines for the Formulation of Lagrangian Stochastic Models for Particle Simulations of SinglePhase and Dispersed TwoPhase Turbulent Flows'', Physics of Fluids , 26, 113303. (http://dx.doi.org/10.1063/1.4901315). [Copyright (2014) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The article appeared in Physics of Fluids, Vol. 26, Issue 11 and may be found at Minier, Physics of Fluids, 26, 113303 (2014).] 

S.B. Pope (2014) ``The Determination of TurbulenceModel Statistics from the VelocityAcceleration Correlation'', Journal of Fluid Mechanics, 757, R1, (doi: 10.1017/jfm.2014.563). [Copyright Notice: This article may be downloaded for personal use only. Any other use requires prior permission of the author and Cambridge University Press. The article appeared in Journal of Fluid Mechanics, Vol. 757, R1 and may be found at Pope, J. Fluid Mech., 757, R1 (2014).] 

J. Kim, S.B. Pope (2014) ``Effects of Combined Dimension Reduction and Tabulation on the Simulations of a Turbulent Premixed Flame using a LargeEddy Simulation/Probability Density Function Method'', Combustion Theory and Modelling , 18(3), 388413, (http://dx.doi.org/10.1080/13647830.2014.919411). 

P.P. Popov, S.B. Pope (2014) ``Implicit and Explicit Schemes for Mass Consistency Preservation in Hybrid Particle/FiniteVolume Algorithms for Turbulent Reactive Flows'', Journal of Computational Physics , 257, 352373. 

Papers 20112013


B.L. Sawford, S.B. Pope, P.K. Yeung (2013) ``Gaussian Lagrangian Stochastic Models for MultiParticle Dispersion'', Physics of Fluids , 25, 055101. (http://dx.doi.org/10.1063/1.4802037). [Copyright (2013) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The article appeared in Physics of Fluids, Vol. 25, Issue 5 and may be found at Sawford, Physics of Fluids, 25, 055101 (2013).] 

V. Hiremath, S.B. Pope (2013) ``A Study of the RateControlled ConstrainedEquilibrium Dimension Reduction Method and its Different Implementations'', Combustion Theory and Modelling , 17(2), 260293, (http://dx.doi.org/13647830.2012.752109). 

D.H. Rowinski, S.B. Pope (2013) ``Computational Study of Lean Premixed Turbulent Flames using RANSPDF and LESPDF Methods'', Combustion Theory and Modelling , 17(4), 610656, (http://dx.doi.org/10.1080/13647830.2013.789929). 

D.H. Rowinski, S.B. Pope (2013) ``An Investigation of Mixing in a ThreeStream Turbulent Jet'', Physics of Fluids , 25, 105105. (doi: 10.1063/1.4822434). [Copyright (2013) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The article appeared in Physics of Fluids, Vol. 25, Issue 10 and may be found at Rowinski, Physics of Fluids, 25, 105105 (2013).] 

S.B. Pope (2013) ``A Model for Turbulent Mixing based on ShadowPosition Conditioning'', Physics of Fluids , 25, 110803. (doi: 10.1063/1.4818981). [Copyright (2013) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The article appeared in Physics of Fluids, Vol. 25, Issue 11 and may be found at Pope, Physics of Fluids, 25, 110803 (2013).] 

Y. Yang, S.B. Pope, J.H. Chen (2013) ``Empirical LowDimensional Manifolds in Composition Space'', Combustion and Flame , 160, 19671980. 

Z. Ren, G.M. Goldin, V. Hiremath, S.B. Pope (2013) ``Simulations of a Turbulent NonPremixed Flame using Combined Dimension Reduction and Tabulation for Combustion Chemistry'', Fuel , 105, 636644. 

S.B. Pope (2013) ``Small Scales, Many Species and the Manifold Challenges of Turbulent Combustion'', Proceedings of the Combustion Institute , 34, 131. 

Y. Yang, H. Wang, S.B. Pope, J.H. Chen (2013) ``LargeEddy Simulation/Probability Density Function Modeling of a NonPremixed CO/H2 Temporally Evolving Jet Flame'', Proceedings of the Combustion Institute , 34, 12411249. 

H. Wang, M. Juddoo, S.H. Starner, A.R. Masri, S.B. Pope (2013) ``A Novel Transient Turbulent Jet Flame for Studying Turbulent Combustion'', Proceedings of the Combustion Institute , 34, 12511259. 

V. Hiremath, S.R. Lantz, H. Wang, S.B. Pope (2013) ``LargeScale Parallel Simulations of Turbulent Combustion using Combined Dimension Reduction and Tabulation of Chemistry'', Proceedings of the Combustion Institute , 34, 205215. 

V. Hiremath, S.R. Lantz, H. Wang, S.B. Pope (2012) ``ComputationallyEfficient and Scalable Parallel Implementation of Chemistry in Simulations of Turbulent Combustion'', Combustion and Flame , 159(12), 30963109. 

A.Y. Klimenko, S.B. Pope (2012) ``Propagation speed of combustion and invasion waves in stochastic simulations with competitive mixing'', Combustion Theory and Modelling , 16(4), 679714. 

K.A. Kemenov, H. Wang, S.B. Pope (2012) ``Modeling effects of subgridscale mixture fraction variance in LES of a piloted diffusion flame'', Combustion Theory and Modelling , 16(4), 611638. 

P.P. Popov, S.B. Pope (2012) ``The direct Richardson pth Order (DRp) schemes  a new class of time integration schemes for stochastic differential equations'', SIAM Journal on Scientific Computing , 34(1), A137160. 

M. Juddoo, A.R. Masri, S.B. Pope (2011) `` Turbulent piloted partiallypremixed flames with varying levels of O2/N2: stability limits and PDF calculations'', Combustion Theory and Modelling , 15(6), 773793. 

K.A. Kemenov, H. Wang, S.B. Pope (2011) ``Turbulence Resolution Scale Dependence in Largeeddy Simulations of a Jet Flame'', Flow, Turbulence and Combustion , DOI: 10.1007/s104940119380x. 

V. Hiremath, Z. Ren, S.B. Pope (2011) ``Combined Dimension Reduction and Tabulation Strategy using ISATRCCEGALI for the Efficient Implementation of Combustion Chemistry'', Combustion and Flame , 158(11), 21132127. 

Z. Ren, G.M. Goldin, V. Hiremath, S.B. Pope (2011) ``Reduced description of reactive flows with tabulation of chemistry'', Combustion Theory and Modelling , 15(6), 827848. 

D.H. Rowinski, S.B. Pope (2011) ``PDF calculations of piloted premixed jet flames'', Combustion Theory and Modelling , 15(2), 245266. 

S. Viswanathan, H. Wang, S.B. Pope (2011) ``Numerical implementation of mixing and molecular transport in LES/PDF studies of turbulent reacting flows'', Journal of Computational Physics , 230(17), 69166957. 

S.B. Pope (2011) ``Simple Models of Turbulent Flows'', Physics of Fluids , 23, 011301. (doi:10.1063/1.3531744). [Copyright (2011) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The article may be found at http://link.aip.org/link/?PHF/23/011301.] 

H. Wang, S.B. Pope (2011) ``Large Eddy Simulation/Probability Density Function Modeling of a Turbulent CH4/H2/N2 Jet Flame'', Proceedings of the Combustion Institute, 33, 13191330. (doi:10.1016/j.proci.2010.08.004). 

Papers 20082010


M.B. Nik, S.L. Yilmaz, P. Givi, M.R.H. Sheikhi and S.B. Pope (2010) ``Simulation of Sandia Flame D Using VelocityScalar Filtered Density Function'', AIAA J , 48(7), 15131522. 

K.A. Kemenov, S.B. Pope (2010) ``Molecular diffusion effects in LES of a piloted methaneair flame'', Combustion and Flame, 158, 240254. (doi:10.1016/j.combustflame.2010.08.014). 

V. Hiremath, Z. Ren, S.B. Pope (2010) ``A Greedy Algorithm for Species Selection in Dimension Reduction of Combustion Chemistry'', Combustion Theory and Modelling , 14(5), 619652. 

S.B. Pope (2010) ``SelfConditioned Fields for LargeEddy Simulations of Turbulent Flows'', Journal of Fluid Mechanics, 652, 139169. (doi:10.1017/S0022112009994174) [© Cambridge University Press] 

H. Wang, P. P. Popov, and S. B. Pope (2010) ``Weak Second Order Splitting Schemes for Lagrangian Monte Carlo Particle Methods for the Composition PDF/FDF Transport Equations'', Journal of Computational Physics , 229, 18521878. 

M.R.H. Sheikhi, P. Givi and S.B. Pope (2009) ``FrequencyVelocityScalar Filtered Mass Density Function for Large Eddy Simulation of Turbulent Flows'', Physics of Fluids , 21, 075102. 

L. Lu, S. R. Lantz, Z. Ren and S. B. Pope (2009) ``Computationally efficient implementation of combustion chemistry in parallel PDF calculations'', Journal of Computational Physics , 228(15), 54905525. 

Z. Ren and S.B. Pope, (2009) ``Sensitivity calculations in PDF modelling of turbulent flames'', Proceedings of the Combustion Institute, 32(1), 16291637. 

L. Lu and S. B. Pope (2009) ``An improved algorithm for in situ adaptive tabulation'', Journal of Computational Physics , 228(2), 361386. 

A.G. Lamorgese, S.B. Pope, P.K. Yeung (2008) ``Analysis of the conditionally cubicGaussian stochastic Lagrangian model'', Physica Scripta , T132, 014044. 

A. Arneodo, R. Benzi, J. Berg, L. Biferale, E. Bodenschatz, A. Busse, E. Calzavarini, B. Castaing, M. Cencini, L. Chevillard, R. Fisher, R. Grauer, H. Homann, D. Lamb, A.S. Lanotte, E. Leveque, B. Luthi, J. Mann, N. Mordant, W.C. Muller, S. Ott, N.T. Ouellette, JF. Pinton, S.B. Pope, S.G. Roux, F. Toschi, H. Xu and P.K. Yeung (2008) ``Universal intermittent properties of particle trajectories in highly turbulent flows'', Physical Review Letters , 100, 254504. 

P.P. Popov, R. Mcdermott, S.B. Pope (2008) ``An accurate time advancement algorithm for particle tracking'', Journal of Computational Physics , 227, 87928806. 

S. Viswanathan and S.B. Pope (2008) ``Turbulent dispersion behind line sources in grid turbulence'', Physics of Fluids , 20(10), 101513. 

S.B. Pope and Z. Ren, (2008) ``Efficient implementation of chemistry in computational combustion'', Flow, Turbulence and Combustion, 82(4), 437453. 

Z. Ren and S.B. Pope, (2008) ``Secondorder splitting schemes for a class of reactive systems'', Journal of Computational Physics 227, 81658176. 

H. Wang and S.B. Pope, (2008) ``Lagrangian investigation of local extinction, reignition and autoignition in turbulent flames'', Combustion Theory and Modelling 12(5), 857882. 

H. Wang and S.B. Pope, (2008) ``Time averaging strategies in the finitevolume/particle hybrid algorithm for the joint PDF equation of turbulent reactive flows'', Combustion Theory and Modelling 12(3), 529544. 

R. McDermott and S.B. Pope, (2008) ``The parabolic edge reconstruction method (PERM) for Lagrangian particle advection'', Journal of Computational Physics, 227, 54475491. 

Z. Ren and S.B. Pope, (2008) ``Sensitivity calculations in PDF particle methods'', Combustion and Flames 153, 202215. 

Papers 20042007


M.R.H. Sheikhi MRH, P. Givi, S.B. Pope, (2007) ``Velocityscalar filtered mass density function for large eddy simulation of turbulent reacting flows '', Physics of Fluids 19 (9): Art. No. 095106. 

P.K. Yeung, S.B. Pope, E.A Kurth, A.G. Lamorgese, (2007) ``Lagrangian conditional statistics, acceleration and local relative motion in numerically simulated isotropic turbulence'', Journal of Fluid Mechanics 582: 399422. 

Z. Ren and S.B. Pope, (2007) ``Reduced description of complex dynamics in reactive systems'', Journal of Physical Chemistry A 111 (34), 84648474. 

R. McDermott and S.B. Pope, (2007) ``A particle formulation for treating differential diffusion in filtered density function methods'', Journal of Computational Physics 226 (1), 947993. 

Z. Ren and S.B. Pope, (2007) ``Transportchemistry coupling in the reduced description of reactive flows'', Combustion Theory and Modelling 11 (5), 715739. 

R.L. Gordon, A.R. Masri, S.B. Pope and G.M. Goldin, (2007) ``Transport budgets in turbulent lifted flames of methane autoigniting in a vitiated coflow'', Combustion and Flame 151, 495511. 

R.L. Gordon, A.R. Masri, S.B. Pope and G.M. Goldin, (2007) ``A numerical study of autoignition in turbulent lifted flames issuing into a vitiated coflow'', Combustion Theory and Modelling 11 (3), 351376. 

P.K. Yeung, S.B. Pope, B.L. Sawford, (2006) ``Reynolds number dependence of Lagrangian statistics in large numerical simulations of isotropic turbulence'', Journal of Turbulence 7 (58): 112 2006. 

B. Panda, M. Riedewald, S.B. Pope, J. Gehrke, and L.P.Chew (2006) "Indexing for function approximation", Very Large Data Bases, ACM 1595933859/06/09. 

Z. Ren and S.B. Pope, (2006) ``The use of slow manifolds in reactive flows'', Combustion and Flame 147, 243261. 

A.G. Lamorgese, S.B. Pope, P.K. Yeung and B.L. Sawford (2007) ``A conditionally cubicGaussian stochastic lagrangian model for acceleration in isotropic turbulence'', Journal of Fluid Mechanics 582, 423448. 

B. Merci, D. Roekaerts, B. Naud, and S.B. Pope, (2006) ``Comparative study of micromixing models in transported scalar PDF simulations of turbulent nonpremixed bluff body flames'', Combustion and Flame, 146, 109130. 

Z. Ren, S.B. Pope, A. Vladimirsky and J.M. Guckenheimer (2007) ``Application of the ICEPIC method for the dimension reduction of chemical kinetics coupled with transport'', Proceedings of the Combustion Institute, 31 473481. 

R. Cao, H. Wang and S.B. Pope (2007) ``The effect of mixing models in PDF calculations of piloted jet flames'', Proceedings of the Combustion Institute, 31, 15431550. 

M.A. Singer, S.B. Pope and H.N. Najm (2006) ``Modeling unsteady reacting flow with operatorsplitting and ISAT'', Combustion and Flame 147, 150162. 

P.K. Yeung, S.B. Pope, A.G. Lamorgese and D.A. Donzis (2006) ``Acceleration and dissipation statistics of numerically simulated isotropic turbulence'', Physics of Fluids 18, 065103. 

Z. Ren, S.B. Pope, A. Vladimirsky and J.M. Guckenheimer (2006) ``The ICEPIC method for the dimension reduction of chemical kinetics'', Journal of Chemical Physics , 124, 114111. 

Z. Ren and S.B. Pope (2006) ``The geometry of reaction trajectories and attracting manifolds in composition space,'' Combustion Theory and Modelling 10 (3), 361388. 

R. Cao and S.B. Pope, (2005) ``The influence of chemical mechanisms on PDF calculations of nonpremixed piloted jet flames'', Combustion and Flame 143, 450470. This paper is accompanied by the Supplementary Material here. 

B.J.D. Liu and S.B. Pope (2005) ``The performance of in situ adaptive tabulation in computations of turbulent flames,'' Combustion, Theory & Modelling 9(4), 549568. 

M.A. Singer, S.B. Pope and H.N. Najm (2006). ``Operatorsplitting with ISAT to model reacting flow with detailed chemistry,'' Combustion, Theory & Modelling 10 (2), 199217 . 

R. Cao, S.B. Pope and A.R. Masri (2005) ``Turbulent lifted flames in a vitiated coflow investigated using joint PDF calculations,'' Combustion and Flame 142, 438453 . 

K. Liu, S.B. Pope and D.A. Caughey (2005) ``Calculations of bluffbody stabilized flames using a joint PDF model with detailed chemistry,'' Combustion and Flame 141, 89117 

Z. Ren and S.B. Pope (2005) ``Species reconstruction using preimage curves'' Proceeding of the Combustion Institute, 30, 12931300. 

A.G. Lamorgese, D.A. Caughey and S.B. Pope (2005) ``Direct numerical simulation of homogeneous turbulence with hyperviscosity,'' Physics of Fluids, 17, 015106. 

M.R.H. Sheikhi, T.G. Drozda, P. Givi, F.A. Jaberi and S.B. Pope (2005) ``Large eddy simulation of a turbulent nonpremixed piloted methane jet flame (Sandia Flame D),'' Proceedings of the Combustion Institute, 30, 549556. 

R.W. Bilger, S.B. Pope, K.N.C. Bray and J.F. Driscoll (2005) ``Paradigms in turbulent combustion research,'' Proceedings of the Combustion Institute, 30, 2142. (Plenary lecture at the Thirtieth International Symposium on Combustion.) 

D. Wang, C. Tong and S.B. Pope (2004) ``Experimental study of velocity filtered joint density function for large eddy simulation,'' Physics of Fluids, 16,3599. 

S.B. Pope (2004) ``Gibbs function continuation for the stable computation of chemical equilibrium,'' Combustion and Flame, 139, 222226. 

A.R. Masri, R. Cao, S.B. Pope and G.M. Goldin (2004) ``PDF Calculations of Turbulent Lifted Flames of H2/N2 issuing into a vitiated coflow,'' Combustion Theory and Modelling, 8, 122. 

Q. Tang and S.B. Pope (2004) ``A more accurate projection in the ratecontrolled constrainedequilibrium method for dimension reduction of combustion chemistry,'' Combustion Theory and Modelling, 8, 255279. 

Z. Ren and S.B. Pope (2004) ``An investigation of the performance of turbulent mixing models.'' Combustion and Flame, 136, 208216. 

Z. Ren and S.B. Pope (2004) ``Entropy production and element conservation in the quasisteadystate approximation.'' Combustion and Flame, 137, 251254. 

S.B. Pope (2004) ``Ten questions concerning the largeeddy simulation of turbulent flows,'' New Journal of Physics, 6, 35. 

M.A. Singer and S.B. Pope (2004) ``Exploiting ISAT to solve the reactiondiffusion equation,'' Combustion Theory and Modelling, 8, 361383. 

S.B. Pope (2004) ``Advances in PDF methods for turbulent reactive flows,'' in Advances in Turbulence X, H.I. Andersson and P.A. Krogstad (Eds.)CIMNE, pp. 529536. 

S. B. Pope (2004) ``Accessed compositions in turbulent reactive flows,'' Flow, Turbulence and Combustion, 72, 219243. 

Papers 20002003


M. Muradoglu, K. Liu and S.B. Pope (2003) ``PDF modeling of a bluffbody stabilized turbulent flame,'' Combust. Flame, 132, 115137. 

R. Cao and S.B. Pope (2003) ``Numerical integration of stochastic differential equations: weak secondorder midpoint scheme for applications in the composition PDF method,'' J. Comput. Phys., 185, 194212. 

A.Y. Klimenko and S.B. Pope (2003) ``A model for turbulent reactive flows based on multiple mapping conditioning,'' Physics of Fluids, 15, 19071925. 

M.R.H. Sheikhi, T.G. Drozda, P. Givi and S.B. Pope (2003) ``Velocityscalar filtered density function for large eddy simulation of turbulent flows,'' Physics of Fluids, 15, 23212337. 

Q. Tang and S.B. Pope (2002) ``Implementation of combustion chemistry by in situ/ adaptive tabulation of ratecontrolled constrained equilibrium manifolds,'' Proc. Comb. Inst., 29, 14111417. 

S.B. Pope (2002) ``A stochastic Lagrangian model for acceleration in turbulent flows,'' Physics of Fluids, 14, 23602375. 

M. Muradoglu and S.B. Pope (2002) `` Local timestepping algorithm for solving the probability density function turbulence model equations,'' AIAA Journal, 40, 17551763. 

S.B. Pope (2002) ``Stochastic lagrangian models of velocity in homogeneous turbulent shear flow,'' Phys. Fluids, 14, 16961702. 

D.L. Koch and S.B. Pope (2002) ``Coagulationinduced particleconcentration fluctuations in homogeneous, isotropic turbulence,'' Phys. Fluids, 14, 24472455. 

L.Y.M. Gicquel, P. Givi, F.A. Jaberi and S.B. Pope (2002) ``Velocity filtered density function for large eddy simulation of turbulent flows,'' Phys. Fluids, 14, 11961213. 

M. Muradoglu, S.B. Pope and D.A. Caughey (2001) ``The hybrid method for the PDF equations of turbulent reactive flows: consistency conditions and correction algorithms,'' J. Comp. Phys., 172, 841878. 

S. James, M.S. Anand, M.K. Razdan and S.B. Pope (2001) ``In situ detailed chemistry calculations in combustor flow analysis,'' ASME Journal of Engineering for Gas Turbines and Power, 123, 747756. 

P. Jenny, M. Muradoglu, K. Liu, S.B. Pope, D.A. Caughey (2001) ``PDF simulations of a bluffbody stabilized flow,'' J. Comp. Phys. 169, 123. 

S.B. Pope (2001) ``Largeeddy simulation using projection onto local basis functions,'' in: Fluid Mechanics and the Environment: Dynamical Approaches, Ed. J.L. Lumley, Springer. 

P. Jenny, S.B. Pope, M. Muradoglu and D.A. Caughey (2001) ``A hybrid algorithm for the joint PDF equation for turbulent reactive flows,'' J. Comp. Phys. 166, 281252. 

A.R. Masri, S.B. Pope and B.B. Dally (2000) ``PDF computations of a strongly swirling nonpremixed flame stabilized on a new burner,'' Proceedings of the Combustion Institute, 28, 123131. 

Q. Tang, J. Xu and S.B. Pope (2000) ``PDF calculations of local extinction and NO production in pilotedjet turbulent methane/air flames,'' Proceedings of the Combustion Institute, 28, 133139. 

J. Xu and S.B. Pope (2000) ``PDF calculations of turbulent nonpremixed flames with local extinction,'' Combust. Flame, 123, 281307. 

Papers 19951999


M. Muradoglu, P. Jenny, S.B. Pope and D.A. Caughey (1999). ``A consistent hybrid finitevolume/particle method for the PDF equations of turbulent reactive flows,'' Journal of Computational Physics, 154, 342371. 

S.B. Pope (1999) ``A perspective on turbulence modeling,'' in Modeling Complex Turbulent Flows Eds. M.D. Salas, J.N. Hefner and L. Sakell, Kluwer, pp. 5367. 

M.R. Overholt and S.B. Pope (1999) ``Direct numerical simulation of a statistically stationary turbulent reacting flow,'' Combustion Theory and Modelling, 3, 371408. 

J. Xu and S.B. Pope (1999) ``Assessment of numerical accuracy of PDF/Monte Carlo methods for turbulent reactive flows,'' Journal of Computational Physics, 152, 192230. 

P.R. Van Slooten and S.B. Pope (1999) ``Application of PDF modeling to swirling and nonswirling turbulent jets,'' Flow, Turbulence and Combustion, 62, 295333. 

V. Saxena and S.B. Pope (1999) ``PDF simulations of turbulent combustion incorporating detailed chemistry,'' Combustion and Flame, 117, 340350. 

F.A. Jaberi, P.J. Colucci, S. James, P. Givi and S.B. Pope (1999) ``Filtered mass density function for largeeddy simulation of turbulent reacting flows,'' J. Fluid Mech., 401, 85121. 

S. Subramaniam and S.B. Pope (1999) ``Comparison of mixing model performance for nonpremixed turbulent reactive flow,'' Combustion and Flame, 117, 732754. 

T.D. Dreeben and S.B. Pope (1998) ``PDF/Monte Carlo simulation of nearwall turbulent flows,'' Journal of Fluid Mechanics, 357, 141166. 

B.J. Delarue and S.B. Pope (1998) ``Calculations of subsonic and supersonic turbulent reacting mixing layers using probability density function methods,'' Physics of Fluids, 10, 487498. 

P.R. Van Slooten, Jayesh and S.B. Pope (1998) ``Advances in PDF modeling for inhomogeneous turbulent flows,'' Physics of Fluids, 10, 246265. 

V. Saxena and S.B. Pope (1998) ``PDF calculations of major and minor species in a turbulent piloted jet flame,'' Proceedings of the Combustion Institute, 27, 10811086. 

S. Subramaniam and S.B. Pope (1998) ``A mixing model for turbulent reactive flows based on Euclidean minimum spanning trees,'' Combustion and Flame, 115, 487514. 

P.J. Colucci, F.A. Jaberi, P. Givi and S.B. Pope (1998) ``Filtered density function for large eddy simulation of turbulent reacting flows,'' Physics of Fluids, 10, 499515. 

M.R. Overholt and S.B. Pope (1998) ``A deterministic forcing scheme for direct numerical simulations of turbulence,'' Computers & Fluids, 27, 1128. 

S.B. Pope (1998) ``The vanishing effect of molecular diffusivity on turbulent dispersion: implications for turbulent mixing and the scalar flux,'' Journal of Fluid Mechanics, 359, 299312. 

B. Yang and S.B. Pope (1998) ``Treating chemistry in combustion with detailed mechanismsin situ adaptive tabulation in principle directionspremixed combustion,'' Combustion and Flame, 112, 85112. 

B. Yang and S.B. Pope (1998) ``An investigation of the accuracy of manifold methods and splitting schemes in the computational implementation of combustion chemistry,'' Combustion and Flame, 112, 1632. 

S.B. Pope(1997) ``Turbulence combustion modeling: fluctuations and chemistry,'' in Advanced Computation & Analysis of Combustion, Eds. G.D. Roy, S.M. Frolov and P. Givi, ENAS Publishers, pp. 310320. 

S.B. Pope (1997) ``Computationally efficient implementation of combustion chemistry using in situ adaptive tabulation,'' Combustion Theory and Modelling, 1, 4163. 

S.B. Pope (1997) ``New developments in PDF modelling of nonreactive and reactive turbulent flows,'' in Turbulence Heat and Mass Transfer 2, Eds. K. Hanjali'c and T.W.J. Peeters, Delft University Press, pp. 3545. 

W.C. Welton and S.B. Pope (1997) ``PDF model calculations of compressible turbulent flows using smoothed particle hydrodynamics,'' Journal of Computational Physics, 134, 150168. 

P.R. Van Slooten and S.B. Pope (1997) ``PDF modeling of inhomogeneous turbulence with exact representation of rapid distortions,'' Physics of Fluids, 9, 10851105. 

M.S. Anand, A.T. Hsu and S.B. Pope (1997) ``Calculations of swirl combustors using joint velocityscalar probability density function method,'' AIAA J 35, 11431150. 

D.J. Delarue and S.B. Pope (1997) ``Application of PDF methods to compressible turbulent flows,'' Physics of Fluids, 9, 27042715. 

T.D. Dreeben and S.B. Pope (1997) ``Wallfunction treatment in PDF methods for turbulent flows,'' Physics of Fluids, 9, 10851105. 

T.D. Dreeben and S.B. Pope (1997) ``Probability density function and Reynoldsstress modeling of nearwall turbulent flows,'' Physics of Fluids, 9, 154163. 

F.C. Christo, A.R. Masri, E.M. Nebot and S.B. Pope (1996) ``An integrated PDF/neural network approach for simulating turbulent reacting systems,'' Proceedings of the Combustion Institute, 26, pp. 4348. 

M.R. Overholt and S.B. Pope (1996) ``DNS of a passive scalar with imposed mean scalar gradient in isotropic turbulence,'' Physics of Fluids, 8, 31283148. 

S.B. Pope (1996) ``Reacting flows and combustion'' in Research Trends in Fluid Dynamics/ (Eds. J.L. Lumley, A. Acrivos, L.G. Leal and S. Leibovich), AIP Press, pp. 229243. 

A.R. Masri, S. Subramaniam and S.B. Pope (1996) ``A mixing model to improve PDF simulation of turbulent diffusion flames,'' Proceedings of the Combustion Institute, 26, pp. 4957. 

A. Juneja and S.B. Pope (1996) ``A DNS study of turbulent mixing of two passive scalars,'' Physics of Fluids, 8, 21612184. 

A.T. Norris and S.B. Pope (1995) ``Modeling of extinction in turbulent diffusion flames by the velocitydissipationcomposition PDF method,'' Combustion and Flame, 100, 211220. 

S.B. Pope (1995) ``Particle method for turbulent flows: integration of stochastic model equations,'' Journal of Computational Physics, 117, 332349. 

Y.Y.Lee and S.B.Pope (1995) ``Nonpremixed turbulent reacting flow near extinction,'' Combustion and Flame, 101, 501528. 

Papers 19901994


Fu, S. and Pope, S.B. (1994) ``Computation of recirculating swirling flow with the GLM reynolds stress closure,'' Acta Mechanica Sinica, 10, 110120. 

U. Maas and S.B. Pope (1994) ``Laminar flame calculations using simplified chemical kinetics based on intrinsic lowdimensional manifolds,'' Proceedings of the Combustion Institute, 25, pp.~13491356. 

S.B. Pope (1994) ``On the relationship between stochastic Lagrangian models of turbulence and secondmoment closures,'' Physics of Fluids, 6, 973985. 

S.M. Correa, A. Gulati and S.B. Pope (1994) ``Raman measurements and joint PDF modeling of a nonpremixed bluffbody stabilized methane flame,'' Proceedings of the Combustion Institute, 25, pp.~11671173. 

S.B. Pope (1994) ``Stochastic lagrangian models for turbulence,'' Annual Reviews of Fluid Mechanics, Vol. 26, 2363. 

S.B. Pope and E.S.C. Ching (1993) ``Stationary probability density functions in turbulence,'' Physics of Fluids A 5, 152931. 

P.K. Yeung and S.B. Pope (1993) ``Differential diffusion of passive scalars in numerically simulated stationary isotropic turbulence,'' Physics of Fluids A 5, 246778. 

S.B. Pope (1993) ``PDF/Monte Carlo methods for turbulent combustion and their implementations on parallel computers,'' in Turbulence and Molecular Processes in Combustion, (Ed.T.Takeno) Elsevier. 

S. Taing, A.R. Masri and S.B. Pope (1993) ``PDF calculations of turbulent nonpremixed flames of H2/CO2 using reduced chemical mechanisms,'' Combust. Flame 95, 13350. 

S.M. Correa and S.B. Pope (1992) ``Comparison of a Monte Carlo PDF finitevolume mean flow model with bluffbody raman data,'' Proceedings of the Combustion Institute, 24, pp. 279285. 

U.A. Maas and S.B. Pope (1992) ``Implementation of simplified chemical kinetics based on intrinsic lowdimensional manifolds,'' Proceedings of the Combustion Institute, 24, pp. 103112. 

U.A. Maas and S.B. Pope (1992) ``Simplifying chemical kinetics: intrinsic lowdimensional manifolds in composition space,'' Combustion and Flame, 88, 239264. 

S.S. Girimaji and S.B. Pope (1992) ``Propagating surfaces in isotropic turbulence,'' Journal of Fluid Mechanics 234, 247277. 

S.B. Pope, P.K. Yeung and S.S. Girimaji (1992) ``Stretching and bending of material surfaces in turbulence,'' Firstprize paper in the 1989 IBM 3090 Supercomputing Competition in Computer Assisted Modeling on the IBM 3090, (K.R. Billingsley, H. U. Brown III and E. Derohanes, eds.) Baldwin Press, Athens, GA. 

S.B. Pope (1991) ``Mapping closures for turbulent mixing and reaction,'' Theoretical and Computational Fluid Dynamics, 2, 255270. 

S.B. Pope (1991) ``Application of the velocitydissipation PDF model to inhomogeneous turbulent Flows,'' Physics of Fluids A, 3, 19471957. 

S.B. Pope (1991) ``Combustion modelling using PDF methods,'' in Numerical Approaches to Combustion Modeling, (E.S. Oran and J.P. Boris, eds.), AIAA. 

S.B. Pope and Y.L. Chen (1990) ``The velocitydissipation pdf model for turbulent flows,'' Physics of Fluids A, 2, 14371449. 

A.T. Norris and S.B. Pope (1990) ``Turbulent mixing model based on ordered pairing,'' Combustion and Flame 83, 2742. 

R.S. Cant, S.B. Pope and K.N.C. Bray (1990) ``Modelling of flamelet surfacetovolume ratio in turbulent premixed combustion,'' Proceedings of the Combustion Institute, 23, pp. 809815. 

S.S. Girimaji and S.B. Pope (1990) ``A stochastic model for velocity gradients in turbulence,'' Physics of Fluids A, 2, 242256. 

S.B. Pope (1990) ``Computations of turbulent combustion: progress and challenges,'' Invited Plenary Lecture, Proceedings of the Combustion Institute, 23, pp. 591612. 

S.S. Girimaji and S.B. Pope (1990) ``Material element deformation in isotropic turbulence,''Journal of Fluid Mechanics 220, 427458. 

P.K. Yeung, S.S. Girimaji and S.B. Pope (1990) ``Straining and scalar dissipation on material surfaces in turbulence: implications for flamelets,'' Combustion and Flame, 79, 340365. 

A.R. Masri and S.B. Pope (1990) ``PDF calculations of piloted turbulent nonpremixed flames of methane,'' Combustion and Flame, 81, 1329. 

S.B. Pope (1990) ``Lagrangian microscales in turbulence,'' Philosophical Transactions of the Royal Society of London A 333, 309319. 

Papers 19851989


P.K. Yeung and S.B. Pope (1989) ``Lagrangian statistics from direct numerical simulations of isotropic turbulence,'' Journal of Fluid Mechanics, 207, 531586. 

S.B. Pope, P.K. Yeung and S.S. Girimaji (1989) ``The curvature of material surfaces in isotropic turbulence,'' Physics of Fluids A, 1, 20102018. 

S.B. Pope (1989) ``Turbulent flow computations using PDF Methods,'' in Recent Advances in Computational Fluid Dynamics, Lecture Notes in Engineering, SpringerVerlag, Vol. 43. 

S.B. Pope and W.K. Cheng (1989) ``The stochastic flamelet model of turbulent premixed combustion,'' Proceedings of the Combustion Institute, 22, pp. 781789. 

M.S. Anand, S.B. Pope and H.C. Mongia (1989) ``A pdf method for turbulent recirculating flows,'' in Turbulent Reactive Flows, Lecture Notes in Engineering, 40, SpringerVerlag 672693. 

D.C. Haworth, M.C. Drake, S.B. Pope and R.J. Blint (1989) ``The importance of timedependent flame structures in stretched laminar flamelet models for jet diffusion flames,'' Proceedings of the Combustion Institute, 22, pp. 589597. 

S.B. Pope and R. Gadh (1988) ``Fitting noisy data using crossvalidated cubic smoothing splines,'' Communications in Statistics, Simulation and Computation, 17, 349376. 

P.K. Yeung and S.B. Pope (1988) ``An algorithm for tracking fluid particles in numerical simulations of homogeneous turbulence,'' Journal of Computational Physics, 79, 373416. 

V. Eswaran and S.B. Pope (1988) ``An examination of forcing in direct numerical simulations of turbulence,'' Computers and Fluids, 16, 257278. 

S.B. Pope (1988) ``The evolution of surfaces in turbulence,'' International Journal of Engineering Science, 26, 445469. 

V. Eswaran and S.B. Pope (1988) ``Direct numerical simulations of the turbulent mixing of a passive scalar,'' Physics of Fluids 31, 506520. 

S.M. Correa, A. Gulati and S.B. Pope (1988) ``Assessment of partialequilibrium/MonteCarlo model for turbulent syngas flames,'' Combustion and Flame, 72, 159173. 

S.B. Pope and W.K. Cheng (1988) ``Statistical calculations of spherical turbulent flames,'' Proceedings of the Combustion Institute, 21, pp. 14731482. 

S.B. Pope and S.M. Correa (1988) ``Joint pdf calculations of a nonequilibrium turbulent diffusion flame,'' Proceedings of the Combustion Institute, 21, pp. 13411348. 

D.C. Haworth and S.B. Pope (1987) ``A pdf modelling study of selfsimilar turbulent free shear flow,'' Physics of Fluids, 30, 10261044. 

S.B. Pope (1987) ``Consistency conditions for randomwalk models of turbulent dispersion,'' Physics of Fluids, 30, 23742379. 

S.B. Pope (1987) ``Turbulent premixed flames,'' Annual Reviews of Fluid Mechanics, 19, 237270. 

M.S. Anand and S.B. Pope (1987) ``Calculations of premixed turbulent flames by pdf methods,'' Combustion and Flame, 67, 127142. 

D.C. Haworth and S.B. Pope (1987) ``Monte Carlo solutions of a joint pdf equation for turbulent flows in general orthogonal coordinates,'' Journal of Computational Physics, 72, 311346. 

D.C. Haworth and S.B. Pope (1986) ``A generalized Langevin model for turbulent flows,'' Physics of Fluids, 29, 387405. 

D.C. Haworth and S.B. Pope (1986) ``A secondorder Monte Carlo method for the solution of the Ito stochastic differential equation,'' Stochastic Analysis and Applications, 4, 151186. 

S.B. Pope and D.C. Haworth (1986) ``The mixing layer between turbulent fields of different scales,'' Turbulent Shear Flows 5, Eds. F. Durst et al., SpringerVerlag, Berlin, 4453. 

S.B. Pope (1985) ``PDF methods for turbulent reactive flows,'' Progress in Energy and Combustion Science, 11, 119192. 

S.B. Pope (1985) ``Lagrangian modelling for turbulent flows,'' in Theoretical Approaches to Turbulence, Eds. D.L. Dwoyer, M.Y. Hussaini, R.G. Voight, SpringerVerlag, Applied Mathematical Sciences Vol. 58, 369373. 

S.B. Pope and M.S. Anand (1985) ``Flamelet and distributed combustion in premixed turbulent flames,'' Proceedings of the Combustion Institute, 20 pp. 403410. 

M.S. Anand and S.B. Pope (1985) ``Diffusion behind a line source in grid turbulence,'' Turbulent Shear Flows 4, Ed. L.J.S. Bradbury et al., SpringerVerlag, Berlin, 4661. 

Papers 19801984


T.V. Nguyen and S.B. Pope (1984) ``Monte Carlo calculations of turbulent diffusion flames,'' Combustion Science and Technology, 42, 1345. 

S.B. Pope (1984) ``Calculations of a plane turbulent jet,'' American Institute of Aeronautics and Astronautics Journal, 22, 896904. 

P. Givi, W.A. Sirignano and S.B. Pope (1984) ``Probability calculations for turbulent jet flows with mixing and reaction of NO and O3,'' Combustion Science Technology, 37, 5978. 

S.B. Pope (1983) ``Consistent modeling of scalars in turbulent flows,'' Physics of Fluids, 26, 404408. 

S.B. Pope (1983) ``A Lagrangian twotime probability density function equation for inhomogeneous turbulent flows,'' Physics of Fluids, 26, 34483450. 

S.B. Pope (1982) ``Calculations of velocityscalar joint PDF's,'' Turbulent Shear Flows 3, Ed. L.J.S. Bradbury et al., SpringerVerlag, Berlin, 113123. 

S.B. Pope (1982) ``An improved turbulent mixing model,'' Combustion Science and Technology, 28, 131145. 

S.B. Pope (1982) ``The application of PDF transport equations to turbulent reactive flows,'' Journal of NonEquilibrium Thermodynamics, 7, 114. 

S.B. Pope (1981) ``A Monte Carlo method for the PDF equations of turbulent reactive flow,'' Combustion Science and Technology, 25, 159174. 

S.B. Pope (1981) ``Transport equation for the joint probability density function of velocity and scalars in turbulent flow,'' Physics of Fluids, 24, 588596. 

S.B. Pope (1981) ``Monte Carlo calculations of premixed turbulent flames,'' Proceedings of the Combustion Institute, 18, 10011010. 

S.B. Pope (1980) ``Probability distributions of scalars in turbulent shear flows,'' Turbulent Shear Flows 2, Ed. L.J.S. Bradbury et al, SpringerVerlag, Berlin, pp. 716 

Papers 19751980


S.B. Pope (1979) ``The statistical theory of turbulent flames,'' Philosophical Transactions of the Royal Society of London A, 291, 529568. 

S.B. Pope (1979) ``The relationship between the probability approach and particle models for reaction in homogeneous turbulence,'' Combustion and Flame, 35, 4145. 

S.B. Pope (1979) ``A rational method of determining probability distributions in turbulent reacting flows,'' Journal of NonEquilibrium Thermodynamics 4, 309320. 

S.B. Pope (1978) ``The calculation of turbulent recirculating flows in general orthogonal coordinates,'' Journal of Computational Physics, 26, 197217. 

S.B. Pope (1978) ``An explanation of the turbulent roundjet/planejet anomaly,'' American Institute of Aeronautics and Astronautics Journal, 16, 279281. 

S.B. Pope (1977) ``The implications of the probability equations for turbulent combustion models,'' Combustion and Flame, 29, 235246. 

S.B. Pope (1976) ``The probability approach to the modeling of turbulent reacting flows,'' Combustion and Flame, 27, 299312. 

S.B. Pope and J. H. Whitelaw (1976) ``The calculation of nearwake flows,'' Journal of Fluid Mechanics 73, 932. 

S.B. Pope (1975) ``A more general effectiveviscosity hypothesis,'' Journal of Fluid Mechanics 72, 331340. 

Other works


Y. Liang, S.B. Pope, P. Pepiot (2015) ``An adaptive methodology for the efficient implementation of detailed chemistry in simulations of turbulent nonpremixed combustion," 9th U.S. National Combustion Meeting , May 1720, 2015, Cincinnati, Ohio. 

R. Tirunagari, S.B. Pope (2015) ``Computational Study of Turbulent Premixed Counterflow Flames," 9th U.S. National Combustion Meeting , May 1720, 2015, Cincinnati, Ohio. 

S.B. Pope, R. Tirunagari (2014) ``Advances in Probability Density Function Methods for Turbulent Reactive Flows," 19th Australasian Fluid Mechanics Conference , December 811, 2014, Melbourne, Australia. 

B. Coriton, S.B. Pope (2014) ``Turbulent Counterflow Flames (TCF): Modeling and Simulation," Twelfth International Workshop on Measurement and Computation of Turbulent Flames (TNF12) , July 31August 2, 2014, Pleasanton, CA. 

Stephen B. Pope (2014) ``Ten Chapters in Turbulence," AIAA Journal, (2014), volume 52, issue 3, 666667, accessed February 17, 2014, doi: http://arc.aiaa.org/doi/abs/10.2514/1.J052847. The article may be found at Stephen B. Pope, "Ten Chapters in Turbulence," AIAA Journal, (2014) 

V. Hiremath, S. R. Lantz, H. Wang, and S. B. Pope (2011) ``Computationallyefficient parallel implementation of combustion chemistry in LES/PDF computations." Fall Technical Meeting of the Eastern States Section of the Combustion Institute , October 12, 2011, University of Connecticut, Storrs, CT, USA. 

S.B. Pope, Z. Ren, V. Hiremath (2009) ``Dimension Reduction and Tabulation of Combustion Chemistry using ICEPIC and ISAT," Second International Workshop on: MODEL REDUCTION IN REACTING FLOWS , March 30  April 1, 2009, UNIVERSITY OF NOTRE DAME NOTRE DAME, INDIANA, USA. 

Z. Ren, V. Hiremath and S.B. Pope (2009) ``Dimension reduction and tabulation of combustion chemistry using ICEPIC and ISAT," 6th US National Combustion Meeting , May 1720, 2009, Ann Arbor, Michigan. 

K.A. Kemenov, H. Wang and S.B. Pope (2009) ``Grid resolution effects on LES of a piloted methaneair flame," 6th US National Combustion Meeting , May 1720, 2009, Ann Arbor, Michigan. 

B. Panda, M. Riedewald, S.B. Pope, and J. Gehrke, (2007) ``Highspeed function approximation," In Proceedings of the 7th IEEE International Conference on Data Mining (ICDM 2007) , October 2831, 2007, Omaha, Nebraska, USA, pp. 613618. IEEE Computer Society. 

S.B. Pope, (2008) ``Algorithms for ellipsoids," Cornell University report FDA 0801. 

L. Lu, S.R. Lantz, Z. Ren, and S.B. Pope, (2007) ``Computationally efficient implementation of combustion chemistry in parallel PDF calculations," Cornell University report FDA 0702. 

L. Lu and S.B. Pope, (2007) ``A systematic investigation of in situ adaptive tabulation for combustion chemistry," Cornell University report FDA 0701. 

Z. Ren and S.B. Pope, (2005) ``Application of the ICEPIC method for the dimension reduction of chemical kinetics,'' Fall Technical Meeting of the Eastern States Section of the Combustion Institute, University of Central Florida, Orlando, FL, November 1315, 2005. 

R. Cao and S.B. Pope, (2005) ``The influence of chemical mechanisms on PDF calculations of nonpremixed piloted jet flames'', 4th Joint Meeting of the U. S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA, March 2023, 2005. 

L. Lu, Z. Ren, S.R. Lantz, V. Raman, S.B. Pope and H. Pitsch (2005) ``Investigation of strategies for the parallel implementation of ISAT in LES/FDF/ISAT computations,'' 4th Joint Meeting of the U. S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA, March 2023, 2005. 

E.V. Vliet, R.O. Fox, J.J. Derksen and S.B. Pope (2004) ``Treatment of fast chemistry in FDF/LES: In Situ Adaptive Tabulation'' Proceedings of PVP01 2004 5th Intern. Symp. on Comp. Tech. for Fluid/Thermal/Chemical Systems with Industrial Appl. San Diego/La Jolla, CA. 

L. Lu, Z. Ren, V. Raman, S.B. Pope and H. Pitsch (2004) ``LES/FDF/ISAT computations of turbulent flames'' Proceedings of CTR Summer Program 2004, Center For Turbulence Research, 283294. 

R. Cao, D.A. Caughey and S.B. Pope, (2003) ``Efficient parallel implementation of a hybrid FiniteVolume/particle method for the PDF equations of turbulent reactive flows,'' Fall Technical Meeting of the ESS of the Combustion Institute, University Park, PA 

K. Liu, S.B. Pope and D.A. Caughey (2003) ``Calculations of a turbulent bluffbody stabilized flame,'' Third Joint Meeting of the U.S. Sections of the Combustion Institute, Chicago. 

Q. Tang and S.B. Pope (2003) ``A more accurate projection in the ratecontrolled constrained equilibrium method for dimension reduction of combustion chemistry.'' Third Joint Meeting of the U.S. Sections of the Combustion Institute, Chicago. 

S.B. Pope (2003) ``The computation of constrained and unconstrained equilibrium compositions of ideal gas mixtures using Gibbs function continuation,'' Cornell University report FDA 0302. 

A.R. Masri, R. Cao, S.B. Pope and G.M. Goldin (2003) ``Calculations of a turbulent lifted flame issuing into a vitiated coflow.'' Third Mediterranean Combustion Symposium, Marrakech, Morocco. 

J.P. Minier, R. Cao and S.B. Pope (2003) ``Comments on the article `An effective particle tracing scheme on structured/unstructured grids in hybrid finite volume/PDF Monte Carlo methods' by Li & Modest,'' J. Comput. Phys. 186, 356358. 

S. James, M.S. Anand and S.B. Pope (2002) ``The Lagrangian PDF transport method for simulations of gas turbine combustor flows,'' AIAA paper 20024017. 

S.B. Pope (2001) ``Numerical integration of stochastic differential equations: weak secondorder midpoint scheme for application in the composition PDF method,'' Cornell University report FDA 0102. 

M. Muradoglu, K. Lui and S.B. Pope (2001) ``PDF modelling of a bluffbody stabilized turbulent flame,'' Cornell University report FDA 0103. 

J. Xu and S.B. Pope (2001) ``Variable density effects in stochastic Lagrangian models for turbulent combustion,'' unpublished report. 

S. James, M.S. Anand, M.K. Razdan and S.B. Pope (1999). ``In situ detailed chemistry calculations in combustor flow analyses.'' In Proceedings of 44th ASME Gas Turbine and AeroEngine Technical Congress, Indianapolis, IN. 

Q. Tang and S.B. Pope (1999) ``Implementation of radiation in ISAT.'' Cornell University report FDA 9905. 

J. Xu and S.B. Pope (1999) ``PDF calculations of pilotedjet turbulent flames of methane with local extinction.'' Cornell University FDA 9906. 

J. Xu and S.B. Pope (1998) ``Turbulence modelling in joint PDF calculations of pilotedjet flames,'' 4th International Symposium on Engineering Turbulence Modelling and Measurements, Corsica, May 1999. 

P.R. Van Slooten and S.B. Pope (1997) ``Critique of Velocity/WaveVector PDF Modeling,'' Cornell University report FDA 9709. 

S.B. Pope (1997) ``Mean field equations in PDF particle methods for turbulent reactive flows,'' Cornell University report FDA 9706. 

J. Xu and S.B. Pope (1997) ``Analysis of numerical errors in solving particle Langevin equations,'' Cornell University report FDA 9707. 

S. Subramaniam and S.B. Pope (1997) ``Comparison of PDF mixing models for nonpremixed turbulent reacting flow'' Cornell University report FDA 9703. 

J. Xu and S.B. Pope (1997) Sources of bias in particlemesh methods for PDF models for turbulent flows,'' Cornell University Report FDA 9701. 

M.S. Anand, A.T. Hsu and S.B. Pope (1996) ``PDF calculations for swirl combustors,'' AAIA Paper 960522. 

S.B. Pope (1996) ``Reducing the tabulation dimension in the In Situ Adaptive Tabulation (ISAT) Method,'' Cornell University report FDA 9604. 

S.B. Pope (1995) ``Position, velocity and pressure correction algorithm for particle method solution of the PDF transport equations,'' Report FDA 9506. 

T.D. Dreeben and S.B. Pope (1995) ``PDF and Reynoldsstress modeling of nearwall turbulent flows,'' Tenth Symposium on Turbulent Shear Flows. 

Jayesh and S.B. Pope (1995) ``Stochastic model for turbulent frequency,'' Cornell Report FDA 9505. 

M.S. Anand, S.B. Pope and H.C. Mongia (1993) ``PDF calculations for swirling flows,'' AIAA paper 930106. 

S. Fu and S.B. Pope (1993) ``Computation of recirculating swirling flow with the GLM Reynolds stress closure,'' Cornell Report FDA 9306. 

S.B. Pope (1993) ``A simpler manifold method for simplifying chemical kinetics,'' Cornell Report FDA 9301. 

P.K. Yeung and S.B. Pope (1993) ``Spectra of multiscalar differential diffusion in isotropic turbulence,'' AIAA paper 933103. 

L. Rochas and S.B. Pope (1993) ``A pressure algorithm for particle methods applied to statistically stationary turbulent flows,'' Cornell Report FDA9309. 

S.B. Pope (1993) ``Application of trajectorygenerated lowdimensional manifold method to premixed combustion of methane,'' Cornell Report FDA9310. 

S.B. Pope and U. Maas (1993) ``Simplifying Chemical Kinetics: TrajectoryGenerated LowDimensional Manifolds,'' Cornell Report FDA 9311. 

P.K. Yeung and S.B. Pope (1992) ``Differential Diffusion of Passive Scalars in Stationary Isotropic Turbulence,'' Thirteenth Symposium on Turbulence, MissourRolla. 

S.B. Pope (1992) ``Converging Fields Algorithm for Steady Flows,'' Cornell University Report. 

A.T. Norris, P.K. Yeung and S.B. Pope (1992) ``Lagrangian time series data for R_lambda of 38, 63, 90 and 93: Exabyte 8mm Storage Guide,'' Cornell Report FDA9210. 

T.D. Dreeben and S.B. Pope (1992) ``Nonparametric estimation of mean fields with application to particle methods for turbulent flows,'' Cornell Report FDA 9213. 

A.T. Norris and S.B. Pope (1991) ``Application of PDF Methods to Piloted Diffusion Flames: Sensitivity to Model Parmeters,'' Eighth Symposium on Turbulent Shear Flows 

M.S., Anand, S.B. Pope and H.C. Mongia (1990) ``Pressure algorithm for elliptic flow calculations with the pdf method,'' CFD Symposium on Aeropropulsion, NASA Lewis, April 1990. 

S.B. Pope ``The PDF method for turbulent combustion,'' CFD Symposium on Aeropropulsion, NASA Lewis, April 1990 (invited talk). 

M.S. Anand, S.B. Pope and H.C. Mongia (1989) ``Calculations of axisymmetric turbulent jets by the PDF method,'' Seventh Symposium on Turbulent Shear Flows, Stanford. 

P.K. Yeung, S. Girimaji and S.B. Pope (1988) ``Eulerian and Lagrangian statistics from a highresolution direct simulation of stationary homogeneous turbulence,'' Cornell Report FDA8802. 

S.B. Pope (1988) ``Stochastic model of Lagrangian dissipation,'' Cornell Report FDA8807. 

S.B. Pope (1988) ``Stochastic model of Lagrangian velocity accounting for internal intermittency,'' Cornell Report FDA8811. 

P.K. Yeung, S. Girimaji and S.B. Pope (1988) ``A second direct simulation of stationary homogeneous turbulence at R_lambda63,'' Cornell Report FDA8808. 

P.K. Yeung, S. Girimaji and S.B. Pope (1988) ``Further direct simulations of stationary homogeneous turbulence at R_lambda90 and 93,'' Cornell Report FDA8819. 

P.K. Yeung and S.B. Pope (1987) ``Lagrangian velocity statistics obtained from direct numerical simulations of homogeneous turbulence,'' Sixth Symposium on Turbulent Shear Flows, Toulouse. 

D.C. Haworth and S.B. Pope (1985) ``Application of a generalized Langevin model to the twodimensional mixing layer,'' Fifth Symposium on Turbulent Shear Flows, Cornell. 

S.B. Pope (1979) ``Author's reply to C. Dopazo's comments on ref. 2.'' Combustion and Flame 34, 103105. 

S.B. Pope (1977) ``A novel calculation procedure for free shear flows,'' Imperial College, Dept. of Mech. Eng. Report FS/77/8. 

S.B. Pope (1977) ``A calculation procedure for twodimensional free shear flows: the SPEAR computer program,'' Imperial College, Dept. of Mech. Eng. Report FS/77/17. 

S.B. Pope (1977) ``The calculation of separated boundarylayers,'' Symposium on Turbulent Shear Flows, Pennsylvania State University. 

S.B. Pope (1976) ``The calculation of the flow behind bluff bodies with and without combustion,'' Ph.D. Thesis, University of London. 

S.B. Pope (1976) ``The limits of applicability of turbulent scale equations,'' Imperial College, Dept. of Mech. Eng. Report FS/77/7. 

D.F.G. Durao, A. Melling, S.B. Pope and J.H. Whitelaw (1973) ``Laseranemometry measurements in the vicinity of a gutterstabilized flame,'' Imperial College, Dept. of Mech. Eng. Report EHT/TN/41. 

S.B. Pope (1973) ``Review of information suitable for testing the prediction of flow in the vicinity of a gutterstabilized flame,'' Imperial College, Dept. of Mech. Eng. Report HTS/73/10. 

S.B. Pope (1972) ``Injector pump performance: the influence of duct and nozzle geometry,'' M.Sc. Thesis, University of London. 