Add to ORKGWe report on kilohertz-repetition-rate flame temperature measurements performed using blue diode lasers. Two-line atomic fluorescence was performed by using diode lasers emitting at around 410 and 451 nm to probe seeded atomic indium. At a repetition rate of 3.5 kHz our technique offers a precision of 1.5% at 2000 K in laminar methane/air flames. The spatial resolution is better than 150 mu m, while the setup is compact and easy to operate, at much lower cost than alternative techniques. By modeling the spectral overlap between the locked laser and the probed indium lines we avoid the need for any calibration of the measurements. We demonstrate the capability of the technique for time-resolved measurements in an acoustically perturbed flame...
Simultaneously calibrated, non-linear two-line atomic fluorescence (SC-nTLAF) thermometry for applic...
We demonstrate a step change in the capability of diode laser excited two-line atomic fluorescence (...
Advances in the field of laser-based combustion diagnostics over the past decades have allowed for d...
We report on kilohertz-repetition-rate flame temperature measurements performed using blue diode las...
Spatially-resolved measurements of flame temperature have been demonstrated with diode lasers for th...
Spatially-resolved measurements of flame temperature have been demonstrated with diode lasers for th...
This paper reports on the first application of diode laser based LIF for pointwise temperature measu...
The use of diode lasers for spatially resolved temperature imaging is demonstrated in low pressure p...
We report on the development of a novel diode laser thermometry technique permitting temperature mea...
The use of diode lasers for spatially resolved temperature imaging is demonstrated in low-pressure p...
Temperature measurements have been performed in a low-pressure flame by the technique of diode laser...
The present thesis is concerned with the development and application of a novel planar laser-induced...
Simultaneously calibrated, non-linear two-line atomic fluorescence (SC-nTLAF) thermometry for applic...
We demonstrate a step change in the capability of diode laser excited two-line atomic fluorescence (...
Advances in the field of laser-based combustion diagnostics over the past decades have allowed for d...
We report on kilohertz-repetition-rate flame temperature measurements performed using blue diode las...
Spatially-resolved measurements of flame temperature have been demonstrated with diode lasers for th...
Spatially-resolved measurements of flame temperature have been demonstrated with diode lasers for th...
This paper reports on the first application of diode laser based LIF for pointwise temperature measu...
The use of diode lasers for spatially resolved temperature imaging is demonstrated in low pressure p...
We report on the development of a novel diode laser thermometry technique permitting temperature mea...
The use of diode lasers for spatially resolved temperature imaging is demonstrated in low-pressure p...
Temperature measurements have been performed in a low-pressure flame by the technique of diode laser...
The present thesis is concerned with the development and application of a novel planar laser-induced...
Simultaneously calibrated, non-linear two-line atomic fluorescence (SC-nTLAF) thermometry for applic...
We demonstrate a step change in the capability of diode laser excited two-line atomic fluorescence (...
Advances in the field of laser-based combustion diagnostics over the past decades have allowed for d...