Shepherd, Joseph E.

Article from CaltechAUTHORS

• Qi, Yunliang and Shepherd, Joseph E. (2023) Ignition of hexane-air mixtures by highly under-expanded hot jets; Proceedings of the Combustion Institute; Vol. 39; No. 3; 2979-2990; 10.1016/j.proci.2022.07.116
• Frederick, Mark D. and Gejji, Rohan M., et el. (2023) Statistical analysis of detonation wave structure; Proceedings of the Combustion Institute; Vol. 39; No. 3; 2847-2854; 10.1016/j.proci.2022.08.054
• Schoeffler, Donner T. and Shepherd, Joseph E. (2023) Analysis of shock wave acceleration from normal detonation reflection; Shock Waves; 10.1007/s00193-023-01126-5
• Frederick, M. D. and Gejji, R. M., et el. (2022) Time-resolved imaging of the cellular structure of methane and natural gas detonations; Shock Waves; Vol. 32; No. 4; 337-351; 10.1007/s00193-022-01080-8
• Jones, Silken and Shepherd, Joseph (2021) Thermal ignition by vertical cylinders; Combustion and Flame; Vol. 232; Art. No. 111499; 10.1016/j.combustflame.2021.111499
• Martin, Conor D. and Shepherd, Joseph E. (2021) Low temperature autoignition of Jet A and surrogate jet fuel; Journal of Loss Prevention in the Process Industries; Vol. 71; Art. No. 104454; 10.1016/j.jlp.2021.104454
• Coronel, Stephanie A. and Veilleux, Jean-Christophe, et el. (2020) Ignition of stoichiometric hydrogen-oxygen by water hammer; Proceedings of the Combustion Institute; Vol. 38; No. 3; 3537-3545; 10.1016/j.proci.2020.07.013
• Boeck, L. R. and Melguizo-Gavilanes, J., et el. (2019) Hot surface ignition dynamics in premixed hydrogen–air near the lean flammability limit; Combustion and Flame; Vol. 210; 467-478; 10.1016/j.combustflame.2019.09.002
• Schmidt, B. E. and Shepherd, J. E. (2019) Stability of Supersonic Flow with Injection; AIAA Journal; Vol. 57; No. 12; 5230-5240; 10.2514/1.J058080
• He, Yizhuo and Wang, Yingdi, et el. (2019) Ignition characteristics of dual-fuel methane-n-hexane-oxygen-diluent mixtures in a rapid compression machine and a shock tube; Fuel; Vol. 249; 379-391; 10.1016/j.fuel.2019.03.105
• Melguizo-Gavilanes, J. and Boettcher, P. A., et el. (2019) Numerical study of the transition between slow reaction and ignition in a cylindrical vessel; Combustion and Flame; Vol. 204; 116-136; 10.1016/j.combustflame.2018.12.036
• Mével, R. and Melguizo-Gavilanes, J., et el. (2019) Experimental and numerical study of the ignition of hydrogen-air mixtures by a localized stationary hot surface; International Journal of Heat and Fluid Flow; Vol. 76; 154-169; 10.1016/j.ijheatfluidflow.2019.02.005
• Veilleux, Jean-Christophe and Shepherd, Joseph E. (2019) Impulsive Motion in a Cylindrical Fluid-Filled Tube Terminated by a Converging Section; Journal of Pressure Vessel Technology; Vol. 141; No. 2; Art. No. 021302; 10.1115/1.4042799
• Mével, R. and Rostand, F., et el. (2019) Oxidation of n-hexane in the vicinity of the auto-ignition temperature; Fuel; Vol. 236; 373-381; 10.1016/j.fuel.2018.09.009
• Jones, S. and Melguizo-Gavilanes, J., et el. (2019) Ignition by moving hot spheres in H_2-O_2-N_2 environments; Proceedings of the Combustion Institute; Vol. 37; No. 2; 1597-1604; 10.1016/j.proci.2018.07.046
• Veilleux, Jean-Christophe and Shepherd, Joseph E. (2018) Pressure and stress transients in autoinjector devices; Drug Delivery and Translational Research; Vol. 8; No. 5; 1238-1253; 10.1007/s13346-018-0568-7
• Coronel, Stephanie A. and Melguizo-Gavilanes, Josué, et el. (2018) Experimental and numerical study on moving hot particle ignition; Combustion and Flame; Vol. 192; 495-506; 10.1016/j.combustflame.2018.02.027
• Mével, R. and Chatelain, K., et el. (2018) An updated reaction model for the high-temperature pyrolysis and oxidation of acetaldehyde; Fuel; Vol. 217; 226-239; 10.1016/j.fuel.2017.12.060
• Coronel, Stephanie A. and Melguizo-Gavilanes, Josué, et el. (2018) Temperature Field Measurements of Thermal Boundary Layer and Wake of Moving Hot Spheres using Interferometry; Experimental Thermal and Fluid Science; Vol. 90; 76-83; 10.1016/j.expthermflusci.2017.08.031
• Boeck, Lorenz R. and Meijers, Maxime, et el. (2017) Ignition of fuel–air mixtures from a hot circular cylinder; Combustion and Flame; Vol. 185; 265-277; 10.1016/j.combustflame.2017.07.007
• Damazo, J. and Shepherd, J. E. (2017) Observations on the normal reflection of gaseous detonations; Shock Waves; Vol. 27; No. 5; 795-810; 10.1007/s00193-017-0736-6
• Jewell, Joseph S. and Leyva, Ivett A., et el. (2017) Turbulent spots in hypervelocity flow; Experiments in Fluids; Vol. 58; No. 4; Art. No. 32; 10.1007/s00348-017-2317-y
• Melguizo-Gavilanes, J. and Coronel, S., et el. (2017) Dynamics of ignition of stoichiometric hydrogen-air mixtures by moving heated particles; International Journal of Hydrogen Energy; Vol. 42; No. 11; 7380-7392; 10.1016/j.ijhydene.2016.05.206
• Melguizo-Gavilanes, J. and Boeck, L. R., et el. (2017) Hot surface ignition of stoichiometric hydrogen-air mixtures; International Journal of Hydrogen Energy; Vol. 42; No. 11; 7393-7403; 10.1016/j.ijhydene.2016.05.095
• Jewell, Joseph S. and Parziale, Nicholaus J., et el. (2017) Effects of Shock-Tube Cleanliness on Hypersonic Boundary Layer Transition at High Enthalpy; AIAA Journal; Vol. 55; No. 1; 332-338; 10.2514/1.J054897
• Melguizo-Gavilanes, J. and Mével, R., et el. (2017) Effects of differential diffusion on ignition of stoichiometric hydrogen-air by moving hot spheres; Proceedings of the Combustion Institute; Vol. 36; No. 1; 1155-1163; 10.1016/j.proci.2016.06.120
• Gallier, S. and Le Palud, F., et el. (2017) Detonation wave diffraction in H₂-O₂-Ar mixtures; Proceedings of the Combustion Institute; Vol. 36; No. 2; 2781-2789; 10.1016/j.proci.2016.06.090
• Mével, Rémy and Niedzielska, Urszula, et el. (2016) Chemical Kinetics of n-Hexane-Air Atmospheres in the Boundary Layer of a Moving Hot Sphere; Combustion Science and Technology; Vol. 188; No. 11-12; 2267-2283; 10.1080/00102202.2016.1211886
• Melguizo-Gavilanes, Josué and Nové-Josserand, Augustin, et el. (2016) Hot Surface Ignition of n-Hexane Mixtures Using Simplified Kinetics; Combustion Science and Technology; Vol. 188; No. 11-12; 2060-2076; 10.1080/00102202.2016.1212577
• Jackson, Scott and Lee, Bok Jik, et el. (2016) Detonation mode and frequency analysis under high loss conditions for stoichiometric propane-oxygen; Combustion and Flame; Vol. 167; 24-38; 10.1016/j.combustflame.2016.02.030
• Schmidt, B. E. and Bitter, N. P., et el. (2016) Injection into Supersonic Boundary Layers; AIAA Journal; Vol. 54; No. 1; 161-173; 10.2514/1.J054123
• Schmidt, B. E. and Shepherd, J. E. (2015) Oscillations in cylinder wakes at Mach 4; Journal of Fluid Mechanics; Vol. 785; Art. No. R3; 10.1017/jfm.2015.668
• Schmidt, B. E. and Shepherd, J. E. (2015) Analysis of focused laser differential interferometry; Applied Optics; Vol. 54; No. 28; 8459-8472; 10.1364/AO.54.008459
• Parziale, N. J. and Shepherd, J. E., et el. (2015) Observations of hypervelocity boundary-layer instability; Journal of Fluid Mechanics; Vol. 781; 87-112; 10.1017/jfm.2015.489
• Capece, Angela M. and Polk, James E., et el. (2015) Decoupling the Thermal and Plasma Effects on the Operation of a Xenon Hollow Cathode With Oxygen Poisoning Gas; IEEE Transactions on Plasma Science; Vol. 43; No. 9; 3249-3255; 10.1109/TPS.2015.2465845
• Bitter, N. P. and Shepherd, J. E. (2015) Stability of highly cooled hypervelocity boundary layers; Journal of Fluid Mechanics; Vol. 778; 586-620; 10.1017/jfm.2015.358
• Bechon, Guillaume and Mével, Rémy, et el. (2015) Modeling of Rayleigh scattering imaging of detonation waves: Quantum computation of Rayleigh cross-sections and real diagnostic effects; Combustion and Flame; Vol. 162; No. 5; 2191-2199; 10.1016/j.combustflame.2015.01.016
• Mével, R. and Shepherd, J. E. (2015) Ignition delay-time behind reflected shock waves of small hydrocarbons–nitrous oxide(–oxygen) mixtures; Shock Waves; Vol. 25; No. 3; 217-229; 10.1007/s00193-014-0509-4
• Mével, Rémy and Davidenko, Dmitry, et el. (2015) Detonation in hydrogen–nitrous oxide–diluent mixtures: An experimental and numerical study; Combustion and Flame; Vol. 162; No. 5; 1638-1649; 10.1016/j.combustflame.2014.11.026
• Bane, Sally P. M. and Ziegler, Jack L., et el. (2015) Investigation of the effect of electrode geometry on spark ignition; Combustion and Flame; Vol. 162; No. 2; 462-469; 10.1016/j.combustflame.2014.07.017
• Capece, Angela M. and Polk, James E., et el. (2014) X-ray Photoelectron Spectroscopy Study of BaWO_4 and Ba_2CaWO_6; Journal of Electron Spectroscopy and Related Phenomena; Vol. 197; 102-105; 10.1016/j.elspec.2014.10.001
• Chatelain, K. and Mével, R., et el. (2014) Ignition and chemical kinetics of acrolein-oxygen-argon mixtures behind reflected shock waves; Fuel; Vol. 135; 498-508; 10.1016/j.fuel.2014.07.004
• Mével, R. and Chatelain, K., et el. (2014) Low temperature oxidation of n-hexane in a flow reactor; Fuel; Vol. 126; 282-293; 10.1016/j.fuel.2014.02.072
• Capece, Angela M. and Polk, James E., et el. (2014) Oxygen transport in the internal xenon plasma of a dispenser hollow cathode; Journal of Applied Physics; Vol. 115; No. 15; Art. No. 153302; 10.1063/1.4871755
• Mével, R. and Davidenko, D., et el. (2014) Application of a laser induced fluorescence model to the numerical simulation of detonation waves in hydrogen-oxygen-diluent mixtures; International Journal of Hydrogen Energy; Vol. 39; No. 11; 6044-6060; 10.1016/j.ijhydene.2014.01.182
• Bitter, Neal P. and Shepherd, Joseph E. (2014) A Simple Model for Axial Displacement in a Cylindrical Pipe With Internal Shock Loading; Journal of Applied Mechanics; Vol. 81; No. 3; Art. No. 034505; 10.1115/1.4025270
• Parziale, N. J. and Shepherd, J. E., et el. (2014) Free-stream density perturbations in a reflected-shock tunnel; Experiments in Fluids; Vol. 55; No. 2; Art. No. 1665; 10.1007/s00348-014-1665-0
• Parziale, N. J. and Rabinovitch, J., et el. (2013) Proposed Vertical Expansion Tunnel; AIAA Journal; Vol. 51; No. 12; 2792-2799; 10.2514/1.J052389
• Boettcher, Philipp A. and Menon, Shyam K., et el. (2013) Cyclic flame propagation in premixed combustion; Journal of Fluid Mechanics; Vol. 735; 176-202; 10.1017/jfm.2013.495
• Bitter, Neal P. and Shepherd, Joseph E. (2013) Detonation and Transition to Detonation in Partially Water-Filled Pipes; Journal of Pressure Vessel Technology; Vol. 135; No. 3; Art. No. 031203; 10.1115/1.4023429
• Bane, S. P. M. and Ziegler, J. L., et el. (2013) Experimental investigation of spark ignition energy in kerosene, hexane, and hydrogen; Journal of Loss Prevention in the Process Industries; Vol. 26; No. 2; 290-294; 10.1016/j.jlp.2011.03.007
• Parziale, N. J. and Shepherd, J. E., et el. (2013) Differential Interferometric Measurement of Instability in a Hypervelocity Boundary Layer; AIAA Journal; Vol. 51; No. 3; 750-754; 10.2514/1.J052013
• Perotti, L. E. and Deiterding, R., et el. (2013) Elastic response of water-filled fiber composite tubes under shock wave loading; International Journal of Solids and Structures; Vol. 50; No. 3-4; 473-486; 10.1016/j.ijsolstr.2012.10.015
• Karnesky, James and Damazo, Jason, et el. (2013) Plastic deformation due to reflected detonation; International Journal of Solids and Structures; Vol. 50; No. 1; 97-110; 10.1016/j.ijsolstr.2012.09.003
• Coronel, S. and Mével, R., et el. (2013) Experimental study of minimum ignition energy of lean H_2-N_(2)O mixtures; Proceedings of the Combustion Institute; Vol. 34; No. 1; 895-902; 10.1016/j.proci.2012.05.062
• Mével, R. and Pichon, S., et el. (2013) Dynamics of excited hydroxyl radicals in hydrogen-based mixtures behind reflected shock waves; Proceedings of the Combustion Institute; Vol. 34; No. 1; 677-684; 10.1016/j.proci.2012.06.151
• Boettcher, P. A. and Mével, R., et el. (2012) The effect of heating rates on low temperature hexane air combustion; Fuel; Vol. 96; 392-403; 10.1016/j.fuel.2011.12.044
• Mével, R. and Boettcher, P. A., et el. (2012) Absorption cross section at 3.39 µm of alkanes, aromatics and substituted hydrocarbons; Chemical Physics Letters; Vol. 531; 22-27; 10.1016/j.cplett.2012.01.069
• Ziegler, Jack L. and Deiterding, Ralf, et el. (2011) An adaptive high-order hybrid scheme for compressive, viscous flows with detailed chemistry; Journal of Computational Physics; Vol. 230; No. 20; 7598-7630; 10.1016/j.jcp.2011.06.016
• Bane, S. P. M. and Mével, R., et el. (2011) Flame burning speeds and combustion characteristics of undiluted and nitrogen-diluted hydrogen-nitrous oxide mixtures; International Journal of Hydrogen Energy; Vol. 36; No. 16; 10107-10116; 10.1016/j.ijhydene.2011.04.232
• Ando, Keita and Sanada, T., et el. (2011) Shock propagation through a bubbly liquid in a deformable tube; Journal of Fluid Mechanics; Vol. 671; 339-363; 10.1017/S0022112010005707
• Bane, S. P. M. and Shepherd, J. E., et el. (2011) Statistical analysis of electrostatic spark ignition of lean H₂/O₂/Ar mixtures; International Journal of Hydrogen Energy; Vol. 36; No. 3; 2344-2350; 10.1016/j.ijhydene.2010.05.082
• Inaba, Kazuaki and Shepherd, Joseph E. (2010) Flexural Waves in Fluid-Filled Tubes Subject to Axial Impact; Journal of Pressure Vessel Technology; Vol. 132; No. 2; Art. No. 021302; 10.1115/1.4000510
• Rawls, George B., Jr. and Prenger, F. Coyne, et el. (2010) Pressure Integrity of 3013 Container Under Postulated Accident Conditions; Journal of Nuclear Materials Management; Vol. 38; No. 3; 43-53
• Sanderson, S. R. and Austin, J. M., et el. (2010) Reactant jetting in unstable detonation; Progress in Aerospace Sciences; Vol. 46; No. 2-3; 116-131; 10.1016/j.paerosci.2009.11.002
• Shepherd, Joseph E. (2009) Structural Response of Piping to Internal Gas Detonation; Journal of Pressure Vessel Technology; Vol. 131; No. 3; Art. No. 031204; 10.1115/1.3089497
• Pintgen, F. and Shepherd, J. E. (2009) Detonation diffraction in gases; Combustion and Flame; Vol. 156; No. 3; 665-677; 10.1016/j.combustflame.2008.09.008
• Shepherd, J. E. (2009) Detonation in gases; Proceedings of the Combustion Institute; Vol. 32; No. 1; 83-98; 10.1016/j.proci.2008.08.006
• Ciccarelli, G. and Hlouschko, S., et el. (2009) The study of geometric effects on the explosion front propagation in a horizontal channel with a layer of spherical beads; Proceedings of the Combustion Institute; Vol. 32; No. 2; 2299-2306; 10.1016/j.proci.2008.06.107
• Jackson, S. I. and Shepherd, J. E. (2008) Detonation Initiation in a Tube via Imploding Toroidal Shock Waves; AIAA Journal; Vol. 46; No. 9; 2357-2367; 10.2514/1.35569
• Kasahara, J. and Liang, Z., et el. (2008) Impulse Generation by an Open Shock Tube; AIAA Journal; Vol. 46; No. 7; 1593-1603; 10.2514/1.27467
• Shepherd, Joseph E. and Perez, Frank A. (2008) Kerosene lamps and cookstoves—The hazards of gasoline contamination; Fire Safety Journal; Vol. 43; No. 3; 171-179; 10.1016/j.firesaf.2007.08.001
• Cooper, M. and Shepherd, J. E. (2008) Single-Cycle Impulse from Detonation Tubes with Nozzles; Journal of Propulsion and Power; Vol. 24; No. 1; 81-87; 10.2514/1.30192
• Lieberman, D. H. and Shepherd, J. E. (2007) Detonation interaction with an interface; Physics of Fluids; Vol. 19; No. 9; Art. No. 096101; 10.1063/1.2768903
• Lieberman, D. H. and Shepherd, J. E. (2007) Detonation interaction with a diffuse interface and subsequent chemical reaction; Shock Waves; Vol. 16; No. 6; 421-429; 10.1007/s00193-007-0080-3
• Jackson, S. I. and Shepherd, J. E. (2007) Toroidal Imploding Detonation Wave Initiator for Pulse Detonation Engines; AIAA Journal; Vol. 45; No. 1; 257-270; 10.2514/1.24662
• Pintgen, F. and Shepherd, J. E. (2007) Stereoscopic Imaging of Transverse Detonations in Diffraction; Journal of Flow Visualization and Image Processing; Vol. 14; No. 1; 121-142; 10.1615/JFlowVisImageProc.v14.i1.80
• Jackson, S. I. and Austin, J. M., et el. (2006) Planar Detonation Wave Initiation in Large-Aspect-Ratio Channels; AIAA Journal; Vol. 44; No. 10; 2422-2425; 10.2514/1.21581
• Cooper, M. and Shepherd, J. E. (2006) Detonation Tube Impulse in Subatmospheric Environments; Journal of Propulsion and Power; Vol. 22; No. 4; 845-851; 10.2514/1.16979
• Wintenberger, E. and Shepherd, J. E. (2006) Stagnation Hugoniot Analysis for Steady Combustion Waves in Propulsion Systems; Journal of Propulsion and Power; Vol. 22; No. 4; 835-844; 10.2514/1.12779
• Shepherd, J. E. and Higgins, A. J. (2006) Report on the 20th International Colloquium on Dynamics of Explosions and Reactive Systems; Shock Waves; Vol. 15; No. 2; 147-147; 10.1007/s00193-006-0016-3
• Wintenberger, E. and Shepherd, J. E. (2006) Thermodynamic Cycle Analysis for Propagating Detonations; Journal of Propulsion and Power; Vol. 22; No. 3; 694-697; 10.2514/1.12775
• Wintenberger, E. and Shepherd, J. E. (2006) Model for the Performance of Airbreathing Pulse-Detonation Engines; Journal of Propulsion and Power; Vol. 22; No. 3; 593-603; 10.2514/1.5792
• Wintenberger, E. and Shepherd, J. E. (2006) Introduction to "To the Question of Energy Use of Detonation Combustion" by Ya. B. Zel'dovich; Journal of Propulsion and Power; Vol. 22; No. 3; 586-587; 10.2514/1.B4997TC
• Chao, Tong Wa and Shepherd, Joseph E. (2005) Fracture response of externally flawed aluminum cylindrical shells under internal gaseous detonation loading; International Journal of Fracture; Vol. 134; No. 1; 59-90; 10.1007/s10704-005-5462-x
• Arienti, Marco and Shepherd, J. E. (2005) A numerical study of detonation diffraction; Journal of Fluid Mechanics; Vol. 529; 117-146; 10.1017/S0022112005003319
• Austin, J. M. and Pintgen, F., et el. (2005) Reaction zones in highly unstable detonations; Proceedings of the Combustion Institute; Vol. 30; No. 2; 1849-1857; 10.1016/j.proci.2004.08.157
• Cooper, M. and Shepherd, J. E., et el. (2004) Impulse Correlation for Partially Filled Detonation Tubes; Journal of Propulsion and Power; Vol. 20; No. 5; 947-950; 10.2514/1.4997
• Cooper, M. and Shepherd, J. E. (2004) Effect of Porous Thrust Surfaces on Detonation Transition and Detonation Tube Impulse; Journal of Propulsion and Power; Vol. 20; No. 5; 811-819; 10.2514/1.4999
• Chao, Tong Wa and Shepherd, Joseph E. (2004) Comparison of Fracture Response of Preflawed Tubes Under Internal Static and Detonation Loading; Journal of Pressure Vessel Technology; Vol. 126; No. 3; 345-353; 10.1115/1.1767861
• Pintgen, F. and Eckett, C. A., et el. (2003) Direct observations of reaction zone structure in propagating detonations; Combustion and Flame; Vol. 133; No. 3; 211-229; 10.1016/S0010-2180(02)00458-3
• Arienti, Marco and Hung, Patrick, et el. (2003) A level set approach to Eulerian–Lagrangian coupling; Journal of Computational Physics; Vol. 185; No. 1; 213-251; 10.1016/s0021-9991(02)00055-4
• Wintenberger, E. and Austin, J. M., et el. (2003) Analytical Model for the Impulse of Single-Cycle Pulse Detonation Tube; Journal of Propulsion and Power; Vol. 19; No. 1; 22-38; 10.2514/2.6099
• Austin, J. M. and Shepherd, J. E. (2003) Detonation in hydrocarbon fuel blends; Combustion and Flame; Vol. 132; No. 1-2; 73-90; 10.1016/S0010-2180(02)00422-4
• Cooper, M. and Jackson, S., et el. (2002) Direct Experimental Impulse Measurements for Detonations and Deflagrations; Journal of Propulsion and Power; Vol. 18; No. 5; 1033-1041; 10.2514/2.6052
• Beltman, W. M. and Shepherd, J. E. (2002) Linear elastic response of tubes to internal detonation loading; Journal of Sound and Vibration; Vol. 252; No. 4; 617-655; 10.1006/jsvi.2001.4039
• Eckett, Chris A. and Quirk, James J., et el. (2000) The role of unsteadiness in direct initiation of gaseous detonations; Journal of Fluid Mechanics; Vol. 421; 147-183; 10.1017/S0022112000001555
• Pfahl, U. J. and Ross, M. C., et el. (2000) Flammability limits, ignition energy, and flame speeds in H₂–CH₄–NH₃–N₂O–O₂–N₂ mixtures; Combustion and Flame; Vol. 123; No. 1-2; 140-158; 10.1016/s0010-2180(00)00152-8
• Aivazis, Michael and Goddard, William A., et el. (2000) A virtual test facility for simulating the dynamic response of materials; Computing in Science & Engineering; Vol. 2; No. 2; 42-53; 10.1109/5992.825748
• Beltman, W. M. and Burcsu, E. N., et el. (1999) The Structural Response of Cylindrical Shells to Internal Shock Loading; Journal of Pressure Vessel Technology; Vol. 121; No. 3; 315-322; 10.1115/1.2883709
• Simões-Moreira, J. R. and Shepherd, J. E. (1999) Evaporation waves in superheated dodecane; Journal of Fluid Mechanics; Vol. 382; 63-86; 10.1017/S0022112098003796
• Hornung, H. G. and Shepherd, J. E., et el. (1994) 20th International Symposium on Shock Waves; Shock Waves; Vol. 4; No. 3; 167-167; 10.1007/bf01417433
• Shepherd, J. E. and Sturtevant, B. (1982) Rapid evaporation at the superheat limit; Journal of Fluid Mechanics; Vol. 121; 379-402; 10.1017/S0022112082001955
• Sturtevant, B. and Shepherd, J. E. (1982) Evaporative instability at the superheat limit; Applied Scientific Research; Vol. 38; No. 1; 85-97; 10.1007/bf00385940