C
Charles E. Miller
Researcher at California Institute of Technology
Publications - 263
Citations - 11829
Charles E. Miller is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Arctic & Permafrost. The author has an hindex of 50, co-authored 229 publications receiving 9593 citations. Previous affiliations of Charles E. Miller include College of William & Mary & Haverford College.
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Journal ArticleDOI
Methane emissions from Alaska in 2012 from CARVE airborne observations
Rachel Y.-W. Chang,Charles E. Miller,Steven J. Dinardo,Anna Karion,Colm Sweeney,Colm Sweeney,Bruce C. Daube,J. Henderson,M. E. Mountain,Janusz Eluszkiewicz,John B. Miller,John B. Miller,Lori Bruhwiler,Steven C. Wofsy +13 more
TL;DR: Methane emissions from boreal Alaska were larger than from the North Slope; the monthly regional flux estimates showed no evidence of enhanced emissions during early spring or late fall, although these bursts may be more localized in time and space than can be detected by the analysis.
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Missing pieces to modeling the Arctic-Boreal puzzle
Joshua B. Fisher,Daniel J. Hayes,Christopher R. Schwalm,Deborah N. Huntzinger,Eric Stofferahn,Kevin Schaefer,Yiqi Luo,Stan D. Wullschleger,Scott J. Goetz,Charles E. Miller,P. C. Griffith,Sarah Chadburn,Abhishek Chatterjee,Abhishek Chatterjee,Philippe Ciais,Thomas A. Douglas,Hélène Genet,Akihiko Ito,Christopher S.R. Neigh,Benjamin Poulter,Brendan M. Rogers,Oliver Sonnentag,Hanqin Tian,Weile Wang,Weile Wang,Yongkang Xue,Zong-Liang Yang,Ning Zeng,Zhen Zhang +28 more
TL;DR: Fisher et al. as discussed by the authors compiled feedback from ecosystem modeling teams on key data needs, which encompass carbon biogeochemistry, vegetation, permafrost, hydrology, and disturbance dynamics.
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A geostatistical data fusion technique for merging remote sensing and ground-based observations of aerosol optical thickness
Abhishek Chatterjee,Anna M. Michalak,Ralph A. Kahn,S. R. Paradise,Amy Braverman,Charles E. Miller +5 more
TL;DR: In this article, the authors presented an effort at combining MISR, MODIS and AERONET AOD products over the continental US, using a common spatial statistical technique called kriging.
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The air-broadened, near-infrared CO2 line shape in the spectrally isolated regime: Evidence of simultaneous Dicke narrowing and speed dependence
David A. Long,K. Bielska,Daniel Lisak,Daniel K. Havey,Mitchio Okumura,Charles E. Miller,Joseph T. Hodges +6 more
TL;DR: Frequency-stabilized cavity ring-down spectroscopy was employed to measure air-broadened CO(2) line shape parameters for transitions near 1.6 μm over a pressure range of 6.7-33 kPa, and it was observed that only the speed-dependent Nelkin-Ghatak line profile was able to model the spectra to within the instrumental noise level.
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O2 A-band line parameters to support atmospheric remote sensing
TL;DR: In this article, the authors quantify a J-dependent quadratic deviation from a standard model of the rotational distribution of the line intensities and derive the line intensity from a weighted fit of the generalized model to an ensemble of data and agree with their measured values to within 0.1% on average, with a relative standard deviation of ≈ 0.3%.