An optical-optical double resonance (OODR) laser induced fluorescence (LIF) for the detection of the N2(A3+ u ) metastable is described. OODR employs the double laser excitation of A-B and B-C nitrogen transitions. Here it is proposed as a sensitive approach to detect N2(A3+ u ) in high-pressure discharges. We have tested its sensitivity with respect to conventional single photon LIF by an excitation/detection scheme in which the two wavelengths required are generated by a provisional single laser setup. Other single laser configurations that might allow a sensitivity close to two orders of magnitude larger than that of conventional LIF are proposed. Such gain can be particularly useful for the detection of N2(A3+ u ) in non-equilibrium, high-pressure discharges.
Optical-optical double resonance LIF detection of N2(A3?+u ) in high pressure gas discharges
G Dilecce;P F Ambrico;S De Benedictis
2005
Abstract
An optical-optical double resonance (OODR) laser induced fluorescence (LIF) for the detection of the N2(A3+ u ) metastable is described. OODR employs the double laser excitation of A-B and B-C nitrogen transitions. Here it is proposed as a sensitive approach to detect N2(A3+ u ) in high-pressure discharges. We have tested its sensitivity with respect to conventional single photon LIF by an excitation/detection scheme in which the two wavelengths required are generated by a provisional single laser setup. Other single laser configurations that might allow a sensitivity close to two orders of magnitude larger than that of conventional LIF are proposed. Such gain can be particularly useful for the detection of N2(A3+ u ) in non-equilibrium, high-pressure discharges.| File | Dimensione | Formato | |
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