Laser-induced fluorescence technique for the quantification of mixing in impinging jets

cilz is produced by pulsed YAG laser vaporization of calcium metal and cooling of the vapor in a pulsed supersonic jet. The Ca2 spectra are studied by time-resolved laser-induced fluorescence. The esistence of a low-lying A 'xi state with voo = 14517 f 2 cm-' and wc = 131 cm-t is confirmed\_ The spe

## Abstract Traditionally the characterisation of mixing in a system is achieved by injecting a tracer solution and monitoring the changes of tracer concentration with time using conductivity probes. In this paper we demonstrate that a non‐intrusive laser‐induced fluorescence (LIF) technique can be

The laser-induced fluorescence spectrum of 9.9'-bianthryl in a free Jet was recorded between 355 and ,375 nm. A characteristic banded structure with 11-16 cm-' spacing was observed in both the O-O and vibronic transtttons and was assigned to a progression due to the torsional motion of anthracene mo

There is an increasing need for continuously monitoring changes in brain metabolism and neuronal activity, respectively. The aim is to improve our understanding of mechanisms involved in physiological as well as pathophysiological and behavioural responses and to characterise drug actions. Changes o

We report the first successful demonstration of a LIF study performed on small molecular ions in a jet expansion produced by resonantly enhanced multiphoton ionization. The study involves the 2 + 1 multiphoton ionization via the B 'X + state ofjet-cooled CO molecules. Sufftcient downstream densities