Tom R. Lewis scite author profile

In environments with high concentrations of biogenic volatile organic compounds and low concentrations of nitrogen oxides (NOx = NO + NO2), significant discrepancies have been found between measured and modeled concentrations of hydroxyl radical (OH). The photolysis of peroxy radicals from isoprene (HO-Iso-O2) in the near ultraviolet represents a potential source of OH in these environments, yet has not been considered in atmospheric models. This paper presents measurements of the absorption cross-sections for OH formation photolysis alone is insufficient to resolve the discrepancy seen between measured OH concentrations and those predicted by atmospheric chemistry models in such environments.

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<title>Application of a blind-deconvolution restoration technique to space imagery</title>

Lewis

Mitra

1991

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Tom R. Lewis

Direct evidence for a substantive reaction between the Criegee intermediate, CH₂OO, and the water vapour dimer

OH production from the photolysis of isoprene-derived peroxy radicals: cross-sections, quantum yields and atmospheric implications

<title>Application of a blind-deconvolution restoration technique to space imagery</title>

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Tom R. Lewis

Direct evidence for a substantive reaction between the Criegee intermediate, CH2OO, and the water vapour dimer

OH production from the photolysis of isoprene-derived peroxy radicals: cross-sections, quantum yields and atmospheric implications

<title>Application of a blind-deconvolution restoration technique to space imagery</title>

Contact Info

Product

Resources

About

Direct evidence for a substantive reaction between the Criegee intermediate, CH₂OO, and the water vapour dimer