Chance, K., X. Liu, and Coauthors (2019), TEMPO Green Paper: Chemistry, physics, and meteorology experiments with the Tropospheric Emissions: monitoring of pollution instrument, Proc. SPIE, 11151, Sensors, Systems, and Next-Generation Satellites XXIII, 111510,

Naeger, A.R., M. J. Newchurch, T. Moore, and K. Chance (2021). What Will TEMPO Offer Air Quality Managers. EM Magazine, September issue, Air and Waste Management Association, 5 pp.,

Naeger, A.R., M. J. Newchurch, T. Moore, K. Chance, X. Liu, S. Alexander, K. Murphy, and B. Wang (2021). A Workshop on the Revolutionary Air-Pollution Applications from Future Tropospheric Emissions: Monitoring of Pollution (TEMPO) Observations. Bull. Amer. Meteor. Soc., 1-13,

Zoogman, P., X. Liu, R. M. Suleiman, W. F. Pennington, D. E. Flittner, J. A. Al-Saadi, B. B. Hilton, D. K. Nicks, M. J. Newchurch, et al. (2017), Tropospheric emissions: Monitoring of pollution (TEMPO), J. Quant. Spectrosc. Ra., 17– 39,, 2016.

Other Relevant Publications

Allen, D., K., Pickering, E. Bucsela, J. van Geffen, J. Lapiere, W. Koshak, and H. Eskes. Observations of lightning NOx production from TROPOMI case studies over the United States, J. Geophys. Res., 126, e2020JD034174,, 2021.

Allen, D. J., K. E. Pickering, E. Bucsela, N. Krotkov, and R. Holzworth (2019). Lightning NOx production in the tropics as determined using OMI NO2 retrievals and WWLLN stroke data, J. Geophys. Res., 124(23), 13498–13518.

Demetillo, M. A. G., C. Harkins, B. C. McDonald, P.S. Chodrow, K. Sun, and S. E. Pusede (2021). Space-based observational constraints on NO2 air pollution inequality from diesel traffic in major US cities. Geophysical Research Letters, 48, e2021GL094333.

Jaffe, D. A., S.M. O'Neill, N.K. Larkin, A.L. Holder, D.L. Peterson, J.E. Halofsky, and A.G. Rappold (2020). Wildfire and prescribed burning impacts on air quality in the United States, J. Air Waste Manag., 70 (6), 583-615,

Johnson, M. S., X. Liu, P. Zoogman, J. Sullivan, M. J. Newchurch, S. Kuang, T. Leblanc, and T. McGee (2018). Evaluation of potential sources of a priori ozone profiles for TEMPO tropospheric ozone retrievals, Atmos. Meas. Tech., 11, 3457–3477,

Judd, L. M., J. A. Al-Saadi, S. J. Janz, M. G. Kowalewski, R. B. Pierce, J. J Szykman, L. C. Valin, R. Swap, A. Cede, M. Mueller, M. Tiefengraber, N. Abuhassan, and D. Williams (2019). Evaluating the impact of spatial resolution on tropospheric NO2 column comparisons within urban areas using high-resolution airborne data, Atmos. Meas. Tech., 12, 6091–6111, .

Kerr, G. H., D. H. Goldberg, and S. C. Anenberg (2021). COVID-19 pandemic reveals persistent disparities in nitrogen dioxide pollution, Proceedings of the National Academy of Sciences of the United States of America, 118(30), e2022409118. pnas.2022409118.

Just A.C., K.B. Arfer, J. Rush, M. Dorman, A. Shtein, A. Lyapustin, and I. Kloog (2020). Advancing methodologies for applying machine learning and evaluating spatiotemporal models of fine particulate matter (PM2.5) using satellite data over large regions, Atmos. Environ., 239, 117649,

Liu, X., A. P. Mizzi, J. L. Anderson, I. Y. Fung, and R. C. Cohen (2017). Assimilation of satellite NO2 observations at high spatial resolution using OSSEs, Atmos. Chem. Phys., 17, 7067–7081,, 2017.

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