Welcome to the new version of CaltechAUTHORS. Login is currently restricted to library staff. If you notice any issues, please email coda@library.caltech.edu
CaltechAUTHORS
Published June 20, 2023 | Published + Supplemental Material
Journal Article Open

Measurement of the collision rate coefficients between atmospheric ions and multiply charged aerosol particles in the CERN CLOUD chamber

Pfeifer, Joschka ORCID icon
Mahfouz, Naser G. A. ORCID icon
Schulze, Benjamin C. ORCID icon
Mathot, Serge ORCID icon
Stolzenburg, Dominik ORCID icon
Baalbaki, Rima ORCID icon
Brasseur, Zoé ORCID icon
Caudillo, Lucía
Dada, Lubna ORCID icon
Granzin, Manuel ORCID icon
He, Xu-Cheng ORCID icon
Lamkaddam, Houssni ORCID icon
Lopez, Brandon
Makhmutov, Vladimir ORCID icon
Marten, Ruby ORCID icon
Mentler, Bernhard ORCID icon
Müller, Tatjana ORCID icon
Onnela, Antti ORCID icon
Philippov, Maxim ORCID icon
Piedehierro, Ana A. ORCID icon
Rörup, Birte ORCID icon
Schervish, Meredith
Tian, Ping ORCID icon
Umo, Nsikanabasi S. ORCID icon
Wang, Dongyu S. ORCID icon
Wang, Mingyi ORCID icon
Weber, Stefan K. ORCID icon
Welti, André ORCID icon
Wu, Yusheng
Zauner-Wieczorek, Marcel ORCID icon
Amorim, Antonio
El Haddad, Imad ORCID icon
Kulmala, Markku ORCID icon
Lehtipalo, Katrianne ORCID icon
Petäjä, Tuukka ORCID icon
Tomé, António ORCID icon
Mirme, Sander
Manninen, Hanna E. ORCID icon
Donahue, Neil M. ORCID icon
Flagan, Richard C. ORCID icon
Kürten, Andreas ORCID icon
Curtius, Joachim ORCID icon
Kirkby, Jasper ORCID icon

Abstract

Aerosol particles have an important role in Earth's radiation balance and climate, both directly and indirectly through aerosol–cloud interactions. Most aerosol particles in the atmosphere are weakly charged, affecting both their collision rates with ions and neutral molecules, as well as the rates by which they are scavenged by other aerosol particles and cloud droplets. The rate coefficients between ions and aerosol particles are important since they determine the growth rates and lifetimes of ions and charged aerosol particles, and so they may influence cloud microphysics, dynamics, and aerosol processing. However, despite their importance, very few experimental measurements exist of charged aerosol collision rates under atmospheric conditions, where galactic cosmic rays in the lower troposphere give rise to ion pair concentrations of around 1000 cm⁻³. Here we present measurements in the CERN CLOUD chamber of the rate coefficients between ions and small (<10 nm) aerosol particles containing up to 9 elementary charges, e. We find the rate coefficient of a singly charged ion with an oppositely charged particle increases from 2.0 (0.4–4.4) × 10⁻⁶ cm³ s⁻¹ to 30.6 (24.9–45.1) × 10⁻⁶ cm³ s⁻¹ for particles with charges of 1 to 9 e, respectively, where the parentheses indicate the ±1σ uncertainty interval. Our measurements are compatible with theoretical predictions and show excellent agreement with the model of Gatti and Kortshagen (2008).

Additional Information

© Author(s) 2023. This work is distributed under the Creative Commons Attribution 4.0 License. We thank CERN for supporting CLOUD with technical and financial resources. We thank Louis-Philippe De Menezes, Ilia Krasin, Xavier Pons, and Robert Kristic for their contributions to the experiment. This research has been supported by the European Union's Horizon 2020 Research and Innovation programme under the Marie Skłodowska-Curie Actions programme (ITN 400, grant no. 764991, CLOUD-MOTION H2020-MSCA-ITN2017), the German Ministry of Science and Education (grant no. 01LK1601A, CLOUD-16), the Swiss National Science Foundation (grant nos. 200021_169090, 200020_172602, and 20FI20_172622), the European Union's Horizon 2020 Research and Innovation programme under the Marie Skłodowska-Curie Actions programme (grant agreement no. 895875, NPF-PANDA), the ACCC Flagship funded by the Academy of Finland (grant no. 337549), an academy professorship funded by the Academy of Finland (grant no. 302958), the Academy of Finland (projects nos. 325656, 316114, 314798, 325647, 341349, and 349659), an INAR project funded by Jane and Aatos Erkko Foundation (Quantifying carbon sink, CarbonSink+ and their interaction with air quality), the Jenny and Antti Wihuri Foundation (Air pollution cocktail in Gigacity), the European Research Council (ERC; contract no. 742206, ATM-GTP), the Arena for the gap analysis of the existing Arctic Science Co-Operations (AASCO) funded by the Prince Albert Foundation (contract no. 2859), and the FCT-Portuguese national funding agency for science, research and technology (project no. CERN/FIS-COM/0028/2019). Author contributions: JP, SM, HEM, and JK developed the CHARGE electrospray generator. JP, NGAM, BCS, SM, RB, ZB, LC, LD, MG, XCH, BL, VM, RM, BM, AO, MP, AAP, BR, MS, PT, NSU, DSW, MW, SKW, AW, MZW, YW, IEH, KL, MK, TP, AT, SM, HEM, and JK prepared the CLOUD facility and measurement instruments. JP, NGAM, BCS, LC, LD, MG, XCH, HL, RM, BM, TM, AAP, BR, DSW, SKW, AW, MZW, AA, AT, SM, HEM, AK, and JK collected the data. JP, NGAM, BCS, and DS analysed the data. JP, NGAM, BCS, SM, DS, LD, XCH, SKW, AW, IEH, NMD, RCF, AK, JC, and JK contributed to the scientific discussion. JP, NGAM, DS, NMD, RCF, AK, and JK contributed to writing the manuscript. Competing interests: At least one of the (co-)authors is a member of the editorial board of Atmospheric Chemistry and Physics. The peer-review process was guided by an independent editor, and the authors also have no other competing interests to declare. Disclaimer: This research was performed before the invasion of Ukraine by Russia on 24 February 2022.

Attached Files

Published - acp-23-6703-2023.pdf

Supplemental Material - acp-23-6703-2023-supplement.pdf

Files

acp-23-6703-2023.pdf
Files (2.6 MB)
Name Size Download all
md5:cbda2a8da7d85a59de61e1bce0d86d58
1.4 MB Preview Download
md5:0b510fb7b5130327021021d7dd40dbce
1.2 MB Preview Download

Additional details

Identifiers Funding Dates
Created:
August 22, 2023
Modified:
October 20, 2023