Laser-induced fluorescence of the CH molecule in a low-pressure flame

Production of CH(X'R) in a loa-Pressure H/O&H2 flame has been observed by laser excited fluorescence in the 0,O band of the AaA + X'II system at 431 mn. Laser excitation sPeeua have been recorded of the P, Q, and R branches with a bandwidth of 0.03 nm and of the head of the Q branch with a bandwidth

Laser-excited molecular fluorescence measurements of CH and CN were made in atmospheric-pressure, acetylene flames. The fluorescence intensity dependence on laser intensity was observed to depart from linearity as laser spectral intensities increased, indicating near saturation. This occurred at las

Visible fluorescence is produced using an argon-ion laser for excitation in sooting methane/air and methane/oxygen diffusion flames. This emission is attributed to small (two to four ring) polycyclic aromatic hydrocarbons, as suggested by previous studies. The key finding in the present investigatio

Laser-induced fluorescence has been observed form the formaldehyde A' A,-jt 'A, electronic transition in a well characterized, laminar methane/air diffusion flame burning at atmospheric pressure. This represents the first optical measurement in flames of naturally occurring formaldehyde, an importan