| California’s methane super-emitters RM Duren, AK Thorpe, KT Foster, T Rafiq, FM Hopkins, V Yadav, BD Bue, ... Nature 575 (7781), 180-184, 2019 | 426 | 2019 |
| Airborne methane remote measurements reveal heavy-tail flux distribution in Four Corners region C Frankenberg, AK Thorpe, DR Thompson, G Hulley, EA Kort, N Vance, ... Proceedings of the national academy of sciences 113 (35), 9734-9739, 2016 | 383 | 2016 |
| Quantifying methane emissions from the global scale down to point sources using satellite observations of atmospheric methane DJ Jacob, DJ Varon, DH Cusworth, PE Dennison, C Frankenberg, ... Atmospheric Chemistry and Physics Discussions 2022, 1-44, 2022 | 360 | 2022 |
| Real-time remote detection and measurement for airborne imaging spectroscopy: a case study with methane DR Thompson, I Leifer, H Bovensmann, M Eastwood, M Fladeland, ... Atmospheric Measurement Techniques 8 (10), 4383-4397, 2015 | 237 | 2015 |
| Intermittency of large methane emitters in the Permian Basin DH Cusworth, RM Duren, AK Thorpe, W Olson-Duvall, J Heckler, ... Environmental Science & Technology Letters 8 (7), 567-573, 2021 | 210 | 2021 |
| Satellite-based survey of extreme methane emissions in the Permian basin I Irakulis-Loitxate, L Guanter, YN Liu, DJ Varon, JD Maasakkers, Y Zhang, ... Science Advances 7 (27), eabf4507, 2021 | 201 | 2021 |
| Mapping methane concentrations from a controlled release experiment using the next generation airborne visible/infrared imaging spectrometer (AVIRIS-NG) AK Thorpe, C Frankenberg, AD Aubrey, DA Roberts, AA Nottrott, TA Rahn, ... Remote Sensing of Environment 179, 104-115, 2016 | 168 | 2016 |
| Space‐based remote imaging spectroscopy of the Aliso Canyon CH4 superemitter DR Thompson, AK Thorpe, C Frankenberg, RO Green, R Duren, ... Geophysical Research Letters 43 (12), 6571-6578, 2016 | 165 | 2016 |
| Potential of next-generation imaging spectrometers to detect and quantify methane point sources from space DH Cusworth, DJ Jacob, DJ Varon, C Chan Miller, X Liu, K Chance, ... Atmospheric Measurement Techniques 12 (10), 5655-5668, 2019 | 145 | 2019 |
| US oil and gas system emissions from nearly one million aerial site measurements ED Sherwin, JS Rutherford, Z Zhang, Y Chen, EB Wetherley, PV Yakovlev, ... Nature 627 (8003), 328-334, 2024 | 141 | 2024 |
| Airborne DOAS retrievals of methane, carbon dioxide, and water vapor concentrations at high spatial resolution: application to AVIRIS-NG AK Thorpe, C Frankenberg, DR Thompson, RM Duren, AD Aubrey, ... Atmospheric Measurement Techniques 10 (10), 3833-3850, 2017 | 137 | 2017 |
| Using remote sensing to detect, validate, and quantify methane emissions from California solid waste operations DH Cusworth, RM Duren, AK Thorpe, E Tseng, D Thompson, A Guha, ... Environmental Research Letters 15 (5), 054012, 2020 | 134 | 2020 |
| Fast and accurate retrieval of methane concentration from imaging spectrometer data using sparsity prior MD Foote, PE Dennison, AK Thorpe, DR Thompson, ... IEEE Transactions on Geoscience and Remote Sensing 58 (9), 6480-6492, 2020 | 134 | 2020 |
| High resolution mapping of methane emissions from marine and terrestrial sources using a Cluster-Tuned Matched Filter technique and imaging spectrometry AK Thorpe, DA Roberts, ES Bradley, CC Funk, PE Dennison, I Leifer Remote Sensing of Environment 134, 305-318, 2013 | 126 | 2013 |
| Strong methane point sources contribute a disproportionate fraction of total emissions across multiple basins in the United States DH Cusworth, AK Thorpe, AK Ayasse, D Stepp, J Heckler, GP Asner, ... Proceedings of the National Academy of Sciences 119 (38), e2202338119, 2022 | 125 | 2022 |
| Retrieval techniques for airborne imaging of methane concentrations using high spatial and moderate spectral resolution: application to AVIRIS AK Thorpe, C Frankenberg, DA Roberts Atmospheric Measurement Techniques 7 (2), 491-506, 2014 | 112 | 2014 |
| Mapping methane emissions from a marine geological seep source using imaging spectrometry DA Roberts, ES Bradley, R Cheung, I Leifer, PE Dennison, JS Margolis Remote Sensing of Environment 114 (3), 592-606, 2010 | 103 | 2010 |
| Quantifying methane emissions from United States landfills DH Cusworth, RM Duren, AK Ayasse, R Jiorle, K Howell, A Aubrey, ... Science 383 (6690), 1499-1504, 2024 | 102 | 2024 |
| MethaNet–An AI-driven approach to quantifying methane point-source emission from high-resolution 2-D plume imagery S Jongaramrungruang, AK Thorpe, G Matheou, C Frankenberg Remote Sensing of Environment 269, 112809, 2022 | 101 | 2022 |
| Attribution of individual methane and carbon dioxide emission sources using EMIT observations from space AK Thorpe, RO Green, DR Thompson, PG Brodrick, JW Chapman, ... Science advances 9 (46), eadh2391, 2023 | 100 | 2023 |
Christian FrankenbergCaltechVerified email at caltech.edu
