In‐situ detection of tropospheric OH radicals by folded long‐path laser absorption. Results from the POPCORN Field Campaign in August 1994

Ground based in‐situ measurements of tropospheric hydroxyl radicals were conducted by folded long‐path laser absorption as part of the field campaign POPCORN in August 1994. The OH instrument used an open optical multiple‐reflection cell of 38.5 m base length through which the laser beam was passed up to 80 times. The broadband emission of a short‐pulse UV laser together with a multichannel detection system allowed the simultaneous observation of six OH absorption lines in a spectral interval of Δλ≃0.24 nm at 308.1nm ( A ²Σ + ,υ′ = 0← X ²Π,υ″ = 0 transition). Along with the OH radicals, the trace gases SO 2 , HCHO, and naphthalene were measured by this technique. The large spectral detection range covered a multitude of rotational absorption lines of these trace gases which were all used for multicomponent analysis, thus allowing a specific and sensitive detection of tropospheric OH radicals. An average 2σ detection limit of 1.5 × 10 6 OH/cm³ for an integration time of 200 seconds and an absorption light path length of 1848 m was determined from the field measurements. In total, 392 OH data were obtained by long‐path absorption during 16 days of field measurements. The observed OH concentrations reached peak values of 13 × 10 6 cm −3 at noon.