Data for "A New Open-path Eddy Covariance Method for N2O and Other Trace Gases that Minimizes Temperature Corrections"

Pan, Da; Gelfand, Ilya; Tao, Lei; Abraha, Michael; Sun, Kang; Guo, Xuehui; Chen, Jiquan; Robertson, G. Philip; Zondlo, Mark A.
Issue date: 2021
Rights:
Creative Commons Attribution 4.0 International (CC BY)
Cite as:
Pan, Da, Gelfand, Ilya, Tao, Lei, Abraha, Michael, Sun, Kang, Guo, Xuehui, Chen, Jiquan, Robertson, G. Philip, & Zondlo, Mark A. (2021). Data for "A New Open-path Eddy Covariance Method for N2O and Other Trace Gases that Minimizes Temperature Corrections" [Data set]. Princeton University. https://doi.org/10.34770/ensr-9q19
@electronic{pan_da_2021,
  author      = {Pan, Da and
                Gelfand, Ilya and
                Tao, Lei and
                Abraha, Michael and
                Sun, Kang and
                Guo, Xuehui and
                Chen, Jiquan and
                Robertson, G. Philip and
                Zondlo, Mark A.},
  title       = {{Data for "A New Open-path Eddy Covarianc
                e Method for N2O and Other Trace Gases t
                hat Minimizes Temperature Corrections"}},
  publisher   = {{Princeton University}},
  year        = 2021,
  url         = {https://doi.org/10.34770/ensr-9q19}
}
Description:

This dataset contains spectroscopic simulations, experimental results for the 2202 cm-1 N2O absorption line, and N2O flux measurements shown in "A New Open-path Eddy Covariance Method for N2O and Other Trace Gases that Minimizes Temperature Corrections" by Da Pan, Ilya Gelfand, Lei Tao, Michael Abraha, Kang Sun, Xuehui Guo, Jiquan Chen, G. Philip Robertson, and Mark A. Zondlo. The HITRAN Application Programming Interface (HAPI) with HITRAN 2016 was used for spectroscopic simulations. Experiments were conducted to quantify H2O-broadened half-width at half maximum and validate spectroscopic simulations. N2O flux was measured with both eddy covariance and static chamber methods.

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