David J. Tanner
Georgia Institute of Technology
93 Papers
1K Citations
David J. Tanner is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Chemical ionization & Mass spectrometry. The author has an hindex of 45, co-authored 93 publications. Previous affiliations of David J. Tanner include Institute of Arctic and Alpine Research & National Center for Atmospheric Research.
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Papers
Measurements of new particle formation and ultrafine particle growth rates at a clean continental site
Rodney J. Weber,Rodney J. Weber,James Marti,James Marti,Peter H. McMurry,Fred L. Eisele,Fred L. Eisele,David J. Tanner,A. Jefferson +8 more
TL;DR: In this article, the authors used the same approach to estimate particle growth rates at Idaho Hill, Colorado, and found that the growth rates were ∼5 to 10 times higher than can be explained by condensation of H2SO4 and its associated water.
543
Measured atmospheric new particle formation rates: implications for nucleation mechanisms
TL;DR: In this paper, it was shown that atmospheric nucleation may occur by a collision-limited process, rather than by a condensation/evaporation controlled process as is assumed in the classical theory.
413
New Particle Formation in the Remote Troposphere: A Comparison of Observations at Various Sites
Rodney J. Weber,Peter H. McMurry,Roy L. Mauldin,David J. Tanner,Fred Eisele,Antony D. Clarke,Vladimir N. Kapustin +6 more
TL;DR: In this paper, the authors show that new particles are formed by homogenous nucleation over a wide range of conditions in the remote troposphere, with large nucleation events found exclusively in regions of enhanced sulfuric acid vapor (H2SO4g) concentrations, with maximum concentrations never exceeding 5×107 molecules cm−3.
317
A thermal dissociation–chemical ionization mass spectrometry (TD‐CIMS) technique for the simultaneous measurement of peroxyacyl nitrates and dinitrogen pentoxide
TL;DR: In this article, a thermal dissociation-chemical ionization mass spectrometry (TD-CIMS) technique was developed for fast measurements of a series of peroxyacyl nitrates and dinitrogen pentoxide.
293
Airborne measurements of western U.S. wildfire emissions: Comparison with prescribed burning and air quality implications
Xiaoxi Liu,Xiaoxi Liu,Xiaoxi Liu,L. Gregory Huey,Robert J. Yokelson,Vanessa Selimovic,Isobel J. Simpson,Markus Müller,Markus Müller,Jose L. Jimenez,Jose L. Jimenez,Pedro Campuzano-Jost,Pedro Campuzano-Jost,Andreas J. Beyersdorf,Andreas J. Beyersdorf,Donald R. Blake,Zachary Butterfield,Zachary Butterfield,Yonghoon Choi,John D. Crounse,Douglas A. Day,Douglas A. Day,Glenn S. Diskin,Manvendra K. Dubey,Edward C. Fortner,Thomas F. Hanisco,Weiwei Hu,Weiwei Hu,L. King,Lawrence I. Kleinman,Simone Meinardi,Tomas Mikoviny,Timothy B. Onasch,Brett B. Palm,Brett B. Palm,Jeff Peischl,Jeff Peischl,Ilana B. Pollack,Ilana B. Pollack,Ilana B. Pollack,Thomas B. Ryerson,Glen W. Sachse,Arthur J. Sedlacek,John E. Shilling,Stephen R. Springston,Jason M. St. Clair,Jason M. St. Clair,Jason M. St. Clair,David J. Tanner,Alex P. Teng,Paul O. Wennberg,Armin Wisthaler,Armin Wisthaler,Glenn M. Wolfe,Glenn M. Wolfe +54 more
TL;DR: In this paper, an extensive set of emission factors (EFs) for over 80 gases and 5 components of submicron particulate matter (PM_1) from three wildfires in the western U.S. were measured from aircraft during the Studies of Emissions and Atmospheric Composition, Clouds and Climate Coupling by Regional Surveys (SEAC^4RS) and the Biomass Burning Observation Project (BBOP).