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Caroline R. Nowlan
Researcher at Harvard University
Publications - 54
Citations - 2727
Caroline R. Nowlan is an academic researcher from Harvard University. The author has contributed to research in topics: Ozone Monitoring Instrument & Trace gas. The author has an hindex of 19, co-authored 44 publications receiving 2130 citations. Previous affiliations of Caroline R. Nowlan include Dalhousie University & Smithsonian Institution.
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Journal ArticleDOI
Atmospheric Chemistry Experiment (ACE): Mission overview.
Peter F. Bernath,C. T. McElroy,M. C. Abrams,C. D. Boone,M. Butler,Claude Camy-Peyret,Michel Carleer,Cathy Clerbaux,Pierre-François Coheur,R. Colin,P. Decola,M. Demazière,James R. Drummond,Denis Dufour,Wayne F. J. Evans,H. Fast,Didier Fussen,K. L. Gilbert,D. E. Jennings,E. J. Llewellyn,Robert P. Lowe,Emmanuel Mahieu,J. C. McConnell,Martin McHugh,Sean D. McLeod,R. Michaud,Clive Midwinter,Clive Midwinter,Ray Nassar,F. Nichitiu,Caroline R. Nowlan,Curtis P. Rinsland,Yves Rochon,N. Rowlands,K. Semeniuk,Paul C. Simon,R. Skelton,J. J. Sloan,M.-A. Soucy,Kimberly Strong,P. Tremblay,D. N. Turnbull,Kaley A. Walker,I. Walkty,D. A. Wardle,V. Wehrle,V. Wehrle,R. Zander,J. Zou +48 more
TL;DR: The Atmospheric Chemistry Experiment (ACE) is a Canadian satellite mission for remote sensing of the Earth's atmosphere that was launched into low Earth circular orbit (altitude 650 km, inclination 74°) on 12 Aug. 2003.
Journal ArticleDOI
The Ozone Monitoring Instrument: overview of 14 years in space
Pieternel F. Levelt,Joanna Joiner,Johanna Tamminen,J. Pepijn Veefkind,Pawan K. Bhartia,Deborah Stein Zweers,Bryan N. Duncan,David G. Streets,Henk Eskes,Ronald van der A,Chris A. McLinden,Vitali Fioletov,Simon Carn,Jos de Laat,Matthew T. DeLand,Sergey Marchenko,Richard D. McPeters,Jerald R. Ziemke,Jerald R. Ziemke,Dejian Fu,Xiong Liu,Kenneth E. Pickering,Arnoud Apituley,G. Gonzalez Abad,Antti Arola,Folkert Boersma,Folkert Boersma,C. Chan Miller,Kelly Chance,Martin de Graaf,Janne Hakkarainen,S. Hassinen,Iolanda Ialongo,Quintus Kleipool,Nickolay A. Krotkov,Can Li,Lok N. Lamsal,Paul A. Newman,Caroline R. Nowlan,Raid Suleiman,L. G. Tilstra,Omar Torres,Huiqun Wang,Krzysztof Wargan +43 more
TL;DR: The Ozone Monitoring Instrument (OMI) on board the Aura satellite spanning a period of nearly 14 years has been used in a wide range of applications and research resulting in many new findings as mentioned in this paper.
Journal ArticleDOI
Tropospheric emissions: Monitoring of pollution (TEMPO)
P. Zoogman,Xiong Liu,Raid Suleiman,W. F. Pennington,David Flittner,Jay Al-Saadi,B.B. Hilton,D. K. Nicks,Michael J. Newchurch,J. L. Carr,Scott J. Janz,M.R. Andraschko,Antti Arola,B. Baker,B. Canova,C. Chan Miller,Ronald C. Cohen,J.E. Davis,M.E. Dussault,David P. Edwards,Jack Fishman,Abduwasit Ghulam,G. Gonzalez Abad,Michel Grutter,Jay R. Herman,J. Houck,Daniel J. Jacob,Joanna Joiner,Brian Kerridge,Jhoon Kim,Nickolay A. Krotkov,Lok N. Lamsal,Can Li,Can Li,Anders V. Lindfors,Randall V. Martin,Randall V. Martin,C. T. McElroy,Chris A. McLinden,Vijay Natraj,Doreen Neil,Caroline R. Nowlan,E.J. O׳Sullivan,Paul I. Palmer,Robert B. Pierce,M.R. Pippin,Alfonso Saiz-Lopez,Robert Spurr,J. Szykman,Omar Torres,J. P. Veefkind,B. Veihelmann,Huiqun Wang,Jun Wang,Kelly Chance +54 more
TL;DR: TEMPO was selected in 2012 by NASA as the first Earth Venture Instrument, for launch between 2018 and 2021, and it will measure atmospheric pollution for greater North America from space using ultraviolet and visible spectroscopy as mentioned in this paper.
Journal ArticleDOI
Validation of ozone measurements from the Atmospheric Chemistry Experiment (ACE)
E. Dupuy,Kaley A. Walker,Kaley A. Walker,J. Kar,C. D. Boone,C. T. McElroy,C. T. McElroy,Peter F. Bernath,Peter F. Bernath,James R. Drummond,James R. Drummond,R. Skelton,Sean D. McLeod,Ryan Hughes,Caroline R. Nowlan,Denis Dufour,J. Zou,F. Nichitiu,Kimberly Strong,Philippe Baron,Richard M. Bevilacqua,T. Blumenstock,Greg Bodeker,Tobias Borsdorff,Adam Bourassa,Heinrich Bovensmann,I. S. Boyd,Astrid Bracher,Colette Brogniez,John P. Burrows,Valéry Catoire,Simone Ceccherini,Simon Chabrillat,T. Christensen,M. T. Coffey,Ugo Cortesi,Jonathan Davies,C. de Clercq,D. A. Degenstein,M. De Mazière,P. Demoulin,J. Dodion,B. J. Firanski,Herbert Fischer,G. Forbes,Lucien Froidevaux,Didier Fussen,P. Gerard,Sophie Godin-Beekmann,Florence Goutail,José Granville,David W. T. Griffith,Craig S. Haley,James W. Hannigan,Michael Höpfner,J. J. Jin,Ashley Jones,Nicholas B. Jones,Kenneth W. Jucks,A. Kagawa,A. Kagawa,Yasuko Kasai,T. E. Kerzenmacher,Armin Kleinböhl,Armin Kleinböhl,Andrew R. Klekociuk,I. Kramer,H. Küllmann,Jayanarayanan Kuttippurath,Jayanarayanan Kuttippurath,Erkki Kyrölä,Jean-Christopher Lambert,Nathaniel J. Livesey,E. J. Llewellyn,Nicholas D. Lloyd,Emmanuel Mahieu,Gloria L. Manney,Gloria L. Manney,B.T. Marshall,J. C. McConnell,M. P. McCormick,I. S. McDermid,Martin McHugh,Chris A. McLinden,Johan Mellqvist,Kohei Mizutani,Yasuhiro Murayama,Donal P. Murtagh,Hermann Oelhaf,Alan Parrish,S. V. Petelina,S. V. Petelina,C. Piccolo,Jean-Pierre Pommereau,Cora E. Randall,Claude Robert,Chris Roth,Matthias Schneider,C. Senten,T. Steck,A. Strandberg,Kevin Strawbridge,Ralf Sussmann,D. P. J. Swart,David W. Tarasick,Jeffrey R. Taylor,C. Tétard,Larry W. Thomason,Anne M. Thompson,M.B. Tully,Jakub Urban,Filip Vanhellemont,Corinne Vigouroux,T. von Clarmann,P. von der Gathen,C. von Savigny,Joe W. Waters,Jacquelyn C. Witte,M. A. Wolff,Joseph M. Zawodny +119 more
TL;DR: In this article, a bias determination of ozone observations from the Atmospheric Chemistry Experiment (ACE) satellite instruments: the ACE Fourier Transform Spectrometer (ACE-FTS) and the Measurement of Aerosol Extinction in the Stratosphere and Troposphere Retrieved by Occultation (MAESTRO) instrument is presented.
Journal ArticleDOI
Application of OMI, SCIAMACHY, and GOME‐2 satellite SO2 retrievals for detection of large emission sources
Vitali Fioletov,Chris A. McLinden,N. A. Krotkov,Kai Yang,Kai Yang,Diego Loyola,Pieter Valks,Nicolas Theys,M. Van Roozendael,Caroline R. Nowlan,Kelly Chance,Xiong Liu,C. Lee,Randall V. Martin,Randall V. Martin +14 more
TL;DR: In this article, the authors applied low and high spatial frequency filtration designed to reduce noise and bias and to enhance weak signals to SO2 data from each instrument, and found that the mean amount of SO2 in the vicinity of the sources, estimated from the three instruments, is in general agreement.