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- A51E-04: RO2 Lifetime Drives Biogenic New Particle Formation and Growth in the Planetary Boundary Layer
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Author(s):Generic 'disconnected' Message
Boxing Yang, Paul Scherrer Institute (First Author, Presenting Author)
Lu Liu, Paul Scherrer Institute
Jenna DeVivo, Carnegie Mellon University
Lucía Caudillo-Plath, Goethe University Frankfurt
Douglas Russell, Goethe University Frankfurt
Felix Kunkler, Max Planck Institute for Chemistry
Bernhard Judmaier, University of Innsbruck
Zhensen Zheng, University of Innsbruck
Wiebke Scholz, University of Innsbruck
Eva Sommer, CERN European Organization for Nuclear Research
Wenjuan Yu, University of Helsinki
Alessia Pignatelli, Paul Scherrer Institute
Abhishek Upadhyay, Paul Scherrer Institute
Lubna Dada, Paul Scherrer Institute
Andrea Pozzer, Max Planck Institute for Chemistry
Neil Donahue, Carnegie Mellon University
Imad El-Haddad, Paul Scherrer Institute
RO₂ lifetime, a variable integrating the effects of NO, HO₂, and RO₂, determines the HOM yield from α-pinene oxidation. Consequently, RO₂ lifetime further controls the nucleation and particle growth rates during new particle formation.
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