Author Index Adachi, M., 18:48 Flagan, R. C., 18:25 Ahmadi, G., 18:11 Flagan, R. C., 19:3 Allen, D. L., 18:241 Flynn, M. R., 19:227 Allen, T. M., 18:187 Fontaine, J. R., 18:85 Anand, N. K., 19:294 Foss, W., 18:187 Anderson, T. L., 19:317 Fotou, G. P., 18:213 Aubertin, G., 18:85 Friedlander, S. K., 19:527 Gadgil, A. J., 19:243 Biswas, P., 18:143, 19:94 Gentry, J. W., 18:165 Blair, D. S., 18:187 George, A. C., 19:351 Bors, T., 19:527 Girgzdys, A., 18:202 Boyle, K. M., 19:227 Gonda, I., 18:250 Briant, J. K., 19:27 Gong, H., 19:294 Brooks, M. E., 19:121 Griffiths, W. D., 19:255 Buckius, R. O., 19:199 Guiton, T. A., 19:491 Butterweck, G., 18:156 Gupta, A., 19:94 Byron, P, R., 18:223 Gurav, A., 19:411 Ceman, D. L., 18:346 Hadjipanayis, G. C., 19:453 Chae, S. K., 18:389, 18:403 Han, R. J., 18:165 Charlson, R. J., 19:317 Hanusch, T., 18:309 Chein, H., 18:376, 19:396 Henley, J. P., 19:491 Chen, B. T., 19:109, 19:255 Heymel, H.-J., 18:156 Chen, Y. K., 19:389 Hickey, A. J., 18:290 Cheng, Y.-S., 18:359, 19:255 Hitzenberger, R., 18:70, 18:323 Chow, J. C., 18:105 Hobbs, C. H., 19:109 Chughtai, A. R., 19:121 Hopke, P. K., 19:80, 19:268, 19:305 Chung, I. P., 19:371 Hughes, B. L., 18:241 Cochran, G. A., 19:491 Hung, W.-Y., 19:243 Colbeck, I., 19:40 Hurkmans, E. J., 19:562 Cole, R., 19:339 Covert, D. S., 19:317 Jaenicke, R., 18:309 Crapo, J. D., 18:257 Jayanthi, G. V., 19:478 Cuomo, V., 18:59 John, W., 18:1, 19:57, 19:69 Jung, Y., 18:418 Dahneke, B., 18:221 Juozaitis, A., 18:202 Daisey, J. M., 19:80 Danisch, S. G., 19:15 Keady, P. B., 19:396 Daves, G. G., 19:199 Kesten, J., 18:156 Davis, E. J., 18:187 Kim, T., 19:227 Dekker, J. P., 19:549, 19:562 Kim, Y. P., 19:157, 19:182, 19:279 Ding, Y. J., 18:100 Klabunde, K. J., 19:453 Dolovich, M., 18:230 Knudsen, A. K., 19:491 Dorato, M. A., 18:241 Koutrakis, P., 19:279 Dunn-Rankin, D., 19:371 Kodas, T., 19:411 Kruis, F. E., 19:514 Eisman, G. A., 19:491 Kulmala, M., 19:381 Esposito, F., 18:59 Kusters, K. A., 19:514 Author Index Lee, J. K., 19:15, 19:215 Scarlett, B., 19:330, 19:514 Lessmann, R. C., 19:133 Scarlett, S. E., 19:362 Li, A., 18:11 Schoonman, J., 19:549, 19:562 Li, Q., 19:453 Schroeder, A. R., 19:199 Li, W, 18:187, 19:305 Seinfeld, J. H., 19:3, 19:157, 19:182, 19:279 Lieber, B., 18:100 Serio, C., 18:59 Lippmann, M., 19:27 Sethi, V., 18:1, 19:57, 19:69 Liu, B. Y. H., 18:48, 19:15, 19:215 Skarda Lee, H., 18:389, 18:403 Lowenthal, D. H., 18:105 Smith, D. M., 19:121 Lu, Q. Q., 18:85 Solomon, P. A., 18:105 Lundgren, D. A., 18:376, 19:396 Sorensen, C. M., 19:453 Steiner, C. K. R., 19:527 Magliano, K. L., 18:105 Su, Y. F., 18:359 Marshall, I. A., 19:255 Swift, D. L., 18:272, 18:359 Martonen, T. B., 19:133 McFarland, A. R., 19:294 Mercer, R. R., 18:257 Tennal, K. B., 19:339 Messing, G. L., 19:478 Tien, C., 18:418 Miller, F. J., 18:257 Tohge, N., 19:468 Mitchell, J. P., 19:255 Tsang, W., 19:499 Mollinger, A. M., 19:330 Tsuto, K., 19:468 Monson, P. R., 19:94 Montassier, N., 19:268 Ulevitius V., 18:202 Mueller, P. K., 19:279 Mullins, H., 19:15 van der Put, P. J., 19:549 van Dieten, V. E. J., 19:562 Nazaroff, W. W,, 19:243 Veringa, H. J., 19:549 Nguyen, H. V., 18:25 Nicholas, N. R., 19:491 Nieuwstadt, F. T. M., 19:330 Wang, H.-C., 18:180 Novick, V. J., 19:94 Wasiolek, P., 19:268 Watson, J. G., 18:105 Oberdorster, G., 18:221, 18:279 Weimer, A. W, 19:491 O’ Hern, T. J., 18:346 Wiener, R. W,, 19:227 Ohshima, K., 19:468 erWilleke, K., 18:129, 18:143, 18:202 Okuyama, K., 19:468 Windeler, R. S., 19:527 Overcamp, T. J., 19:362 Wolff, R., 18:221 Wolff, R. K., 18:241 Pavese, G., 18:59 Wu, M. K., 19:527 Peters, J. E., 19:199 Wu, Z., 19:40 Peters, T. M., 19:396 Pluym, T., 19:411 Xiong, Y., 19:411 Porstendorfer, J., 18:156 Xu, M., 18:129, 18:143 Pratsinis, S. E., 18:143, 18:213, 19:409, 19:514 Pui, D. Y. H., 18:48, 19:215 Yeh, H.-C., 18:359, 19:109, 19:255 Puxbaum, H., 18:323 Yu, C. P., 18:100, 19:51, 19:389 Rader, D. J., 18:346 Zachariah, M. R., 19:499 Reineking, A., 18:156 Zhang, G., 19:40 Richards, L. W., 18:105 Rogak, S. N., 18:25 Zhang, L., 19:51 Rubow, K. L., 19:215 Zhang, S. C., 19:478 Sasse, A. G. B. M., 19:243 Zhang, S. H., 19:3 Zhang, Z., 19:133 Saxena, P.,'19:157, 19:182, 19:279 Ziman, S. D., 18:105 Title Index A Correlation for Particle Wall Losses by Diffusion Comparisons of the Measured and Calculated Spe- in Dilution Chambers, 18:213 cific Absorption Coefficients for Urban Aerosol Acoustic Measurement of Aerosol Particles, 19:339 Samples in Vienna, 18:323 A Virtual Impactor with Clean Air Core for the Computer Simulation of Deposition of Aerosols in a Generation of Aerosols with Narrow Size Distri- Turbulent Channel Flow with Rough Walls, butions, 18:376 18:11 Absorption Measurements with an Integrating Plate Condensational Growth and Evaporation in the Photometer Calibration and Error Analysis, 18:70 Transition Regime, 19:381 Aerosol Bolus Transport Through a Hollow Airway Controlled Synthesis of Nanosized Particles by Cast by Steady Flow in Different Gases, 19:27 Aerosol Processes, 19:527 Aerosol Charge Neutralization by a Corona Ionizer, Controlling Thermophoresis in the Exothermic Nitri- 18:48 dation of an Aluminum Aerosol, 19:491 Aerosol Processing of Materials, 19:411 Coupling Thermodynamic Theory with Measure- Aerosol Spray Pyrolysis Synthesis of Magnetic ments to Characterize Acidity of Atmospheric Manganese Ferrite Particles, 19: 279 Particles, 19:453 An Online a-Impactor for Short-Lived Radon Daugh- Deposition of Particles on a Single Cylinder by a ters, 18:156 Coulombic Force and Direct Interception, 19:40 Application of Ab Initio Molecular Orbital and Deposition of Thoron Progeny in Human Head Reaction Rate Theories to Nucleation Kinetics, Airways, 18:359 19:499 Design and Performance Evaluation of a Pressure- A Simple Model for the Evolution of the Characteris- Reducing Device for Aerosol Sampling from tics of Aggregate Particles Undergoing Coagula- High-Purity Gases, 19:215 tion and Sintering, 19:514 Determination of Particle Vapor Pressures Using the Atmospheric Gas—Aerosol Equilibrium I. Thermo- Tandem Differential Mobility Analyzer, 19:3 dynamic Model, 19:157 Determination of Radiative Transport Properties of Atmospheric Gas—Aerosol Equilibrium II. Analysis Particle Suspensions by a Single-Scattering of Common Approximations and Activity Coef- Experiment, 18:389 ficient Calculation Methods, 19:182 Determination of Refractive Indices of Dyed Polymer Monospheres, 18:403 Behavior of Compact Nonspherical Particles in the Determining Angstrém’s Turbidity Coefficients: An TSI Aerodynamic Particle Sizer Model APS33B: Analysis with a Wide-Range Grating Spectrom- Ultra-Stokesian Drag Forces, 19:255 eter, 18:59 Breakup of Latex Droplets by Impaction, 19:57 Diagnostic Aerosols: Current Status and Future Prospects, 18:250 Calibration of a Counterflow Virtual Impactor at Differentiation of Hydrophobic from Hydrophilic Aerodynamic Diameters from 1 to 15 um, 19: 317 Submicrometer Aerosol Particles, 18:202 Calibration of the Phase Doppler Particle Analyzer Dose Distribution of Pharmaceutical Aerosols, with Monodisperse Droplets, 18:346 18:272 Comparison and Combination of Aerosol Size Distri- butions Measured with a Low Pressure Impac- Effect of Delivery Devices on Nasal Deposition and tor, Differential Mobility Particle Sizer, Electri- Mucociliary Clearance in Rhesus Monkeys, cal Aerosol Analyzer, and Aerodynamic Particle 18:241 Sizer, 19:396 Effect of Humidity and Particle Hygroscopicity on 577 Title Index the Mass Loading Capacity of High Efficiency Numerical Calculations of Inertial Aspiration Effi- Particulate Air (HEPA) Filters, 19:94 ciency of Aerosols into Thin-Walled Sampling Effect of Metal Oxides and Black Carbon (Soot) on Inlets, 19:227 | SO,/O,/H,O Reaction Systems, 19:121 Numerical Prediction of the Performance of a Shrouded Effect of Reynolds Number on the Stokes Number of Probe Sampling in Turbulent Flow, 19:294 Cyclones, 19:362 Obituary, 19:1 Empirical Equations for Nasal Deposition of Inhaled Particles in Small Laboratory Animals and Humans, 19:51 Particle Deposition from Duct Flows by Combined Evaluation of the Effectiveness of Several Air Mechanisms, 19:389 Cleaners for Reducing the Hazard from Indoor Particle Dispersion in Shear Turbulent Flows, 18:85 Radon Progeny, 19:268 Particle Impaction Patterns from a Circular Jet, 18:1 Physicochemical Effects on Lung Disposition of Field and Combined Diffusional and Field Charging Pharmaceutical Aerosols, 18:223 of Fibrous Aerosols, 18:165 PM, and PM, ,C ompositions in California’s San Fluid Dynamics of the Human Larynx and Upper Joaquin Valley, 18:105 Tracheobronchial Airways, 19:133 Potential for Ion-induced Nucleation of Volatile Organic Compounds by Radon Decay in Indoor Gas-to-Particle Conversion in the Particle Precipitation— Environments, 19:80 Aided Chemical Vapor Deposition Process I. Predicting Regional Lung Deposition of Environ- Synthesis of the Binary Compound Titanium mental Tobacco Smoke Particles, 19:243 Nitride, 19:549 Preparation of ZnO-TiO, Composite Fine Particles Gas-to-Particle Conversion in the Particle Precipitation— Using the Ultrasonic Spray Pyrolysis Method and Aided Chemical Vapor Deposition Process II. Their Characteristics on Ultraviolet Cutoff, Synthesis of the Perovskite Oxide Yttrium 19:468 Chromite, 19:562 , Radon Progeny Particle Growth in the Simulated Impaction and Rebound of Particles at Acute Incident Environment of the Respiratory Tract, 19:351 Angles, 18:143 Respirator Leak Detection by Ultrafine Aerosols: A Initial Size Distributions and Hygroscopicity of Predictive Model and Experimental Study, 19:15 Indoor Combustion Aerosol Particles, 19:305 Introduction: The Role of Aerosols in Materials Simulation of Aerosol Deposition in Granular Media, Processing, 19:407 18:418 Lower Respiratory Tract Structure of Laboratory Simulation of the Optical Particle Counter Forward Animals and Humans: Dosimetry Implications, Scattering Spectrometer Probe 100 (FSSP-100), 18:257 18:309 Lung Deposition and Clearance of Pharmaceutical Size Classification of Carbon Filter Aerosols, 19:109 Aerosols: What Can Be Learned from Inhalation Studies of Toxic Aerosols via Elastic and Inelastic Toxicology and Industrial Hygiene?, 18:290 Light Scattering, 18:187 Lung Dose, Distribution, and Clinical Response to Symposium on Pharmaceutical Aerosols: Introduc- Therapeutic Aerosols, 18:230 tion, 18:221 Lung Dosimetry: Pulmonary Cleearance of Inhaled Particles, 18:279 Technique Development for Particle Bounce Moni- toring of Unknown Aerosol Particles, 18:129 Model Experiments of the Resuspension Caused by The Effects of Bluntness and Orientation on Two- Road Traffic, 19:330 Dimensional Samplers in Calm Air, 19:371 Modeling of Solid Particle Formation During Solu- The Mobility and Structure of Aerosol Agglomerates, tion Aerosol Thermolysis: The Evaporation _ 18:25 Stage, 19:478 | Thermal Rebound of Nanometer Particles in a Morphology Descriptors of Irregularly Shaped Parti- Diffusion Battery, 18:180 cles from Two-Dimensional Images, 19:199 Threshold for Resuspension by Particle Impaction, Motion of a Fiber in a Bifurcating Tube Flow, 18:100 19:69