Sorted by Year
Mulholland GW, Mountain RD. Coupled dipole calculation of extinction coefficient and polarization ratio for smoke agglomerates. Combust. Flame. 1999;119:56-68.
Filippov AV, Markus MW, Roth P. In situ characterization of ultrafine particles by laser-induced incandescence: Sizing and particle structure determination. Journal of Aerosol Science. 1999;30:71-87.
Jones AR. Light Scattering for Particle Characterization. Progress in Energy and Combustion Science. 1999;25:1-53.
Filippov AV, Rosner DE. LII Analysis of aggregate size distributions at high pressures. Journal of Aerosol Science. 1999;30:S473-S474.
Snelling DR, Smallwood GJ, Sawchuk RA, et al. Particulate Matter Measurements in a Diesel Engine Exhaust by Laser-Induced Incandescence and the Standard Gravimetric Procedure. SAE; 1999. Available at:
Vander Wal RL, Choi MY. Pulsed laser heating of soot: Morphological changes. Carbon. 1999;37:231-239.
Brasil AM, Farias TL, Carvalho MG. A recipe for image characterization of fractal-like aggregates. Journal of Aerosol Science. 1999;30:1379-1389. Available at:
Schraml S, Will S, Leipertz A. Simultaneous measurement of soot mass concentration and primary particle size in the exhaust of a DI diesel engine by time-resolved laser-induced incandescence. SAE Technical Paper Series 1999-01-0146. 1999.
Schraml S, Will S, Leipertz A. Simultaneous Measurement of Soot Mass Concentration and Primary Particle Size in the Exhaust of a DI Diesel Engine by Time-Resolved Laser-Induced Incandescence (TIRE-LII). SAE; 1999.
Koechner W. Solid-State Laser Engineering. 5th Editionth ed. Berlin: Springer; 1999.
Vander Wal RL, Ticich TM, West JR. Trace Metal Detection by Laser-Induced Breakdown Spectroscopy. Applied Spectroscopy. 1999;53:1226-1236.
Snelling DR, Thomson KA, Smallwood GJ, Gülder ÖL. Two-Dimensional Imaging of Soot Volume Fraction in Laminar Diffusion Flames. Applied Optics. 1999;38:2478-2485.
Choi MY, Jensen KA. Calibration and Correction of Laser-Induced Incandescence for Soot Volume Fraction Measurements. Combustion and Flame. 1998;112:485-491.
McManus KR, Frank JH, Allen MG, Rawlins WT. Characterization of laser-heated soot particles using optical pyrometry. Proceedings of the American Institute of Aeronautics and Astronautics. 1998;36:Paper no. AIAA 98-0159.
Kittelson DB. Engines and Nanoparticles: A Review. Journal of Aerosol Science. 1998;29:575-588. Available at:
Dobbins RA, Fletcher RA, Chang H-C. The evolution of soot precursor particles in a diffusion flame. Combust. Flame. 1998;115:285-298.
Vander Wal RL, Ticich TM, Stephens AB. Optical and Microscopy Investigations of Soot Structure Alterations by Laser-Induced Incandescence. Applied Physics B. 1998;67:115-123. Available at:
Zhao H, Ladommatos N. Optical diagnostics for soot and temperature measurement in diesel engines. Progress in Energy and Combustion Science. 1998;24:221-255. Available at:
Will S, Schraml S, Bader K, Leipertz A. Performance Characteristics of Soot Primary Particle Size Measurements by Time-Resolved Laser-Induced Incandescence. Applied Optics. 1998;37:5647-5658.
Vander Wal RL. Soot precursor carbonization: Visualization using LIF and LII and comparison using bright and drak field TEM. Combust. Flame. 1998;112:607-616.
Geitlinger H, Streibel T, Suntz R, Bockhorn H. Two-dimensional imaging of soot volume fractions, particle number densities and particle radii in laminar and turbulent diffusion flames. Proc. Combust. Inst. 1998;27:1613-1621.
Snelling DR, Smallwood GJ, Campbell IG, Medlock JE, Gülder ÖL. Development and Application of Laser Induced Incandescence (LII) as a Diagnostic for Soot Particulate Measurements. In: AGARD 90th Symposium of the Propulsion and Energetics Panel on Advanced Non-Intrusive Instrumentation for Propulsion Engines. AGARD 90th Symposium of the Propulsion and Energetics Panel on Advanced Non-Intrusive Instrumentation for Propulsion Engines. Brussels, Belgium; 1997:23.1-23.9.
Vander Wal RL. LIF-LII measurements in a turbulent gas-jet flame. Exp. Fluids. 1997;23:281-287.