Add to ORKGInternational audienceWe present an optical Kerr effect based time-gate with the collinear incidence of the pump and probe beams at the Kerr medium, liquid carbon disulfide (CS 2), for ballistic imaging of the high-pressure fuel sprays. The probe pulse used to illuminate the object under study is extracted from the supercontinuum generated by tightly focusing intense femtosecond laser pulses inside water, thereby destroying their coherence. The optical imaging spatial resolution and gate timings are investigated and compared with a similar setup without supercontinuum generation, where the probe is still coherent. And finally, a few ballistic images of the fuel sprays using coherent and incoherent illumination with the proposed time-gate ar...
The study of liquid jet breakup near the nozzle exit under the complex conditions, where the liquid/...
WOS:000368004600050International audienceModern diesel injectors operate at very high injection pres...
We introduce a new approach to temporally resolve ultrafast micron-scale processes via the use of a ...
International audienceWe present an optical Kerr effect based time-gate with the collinear incidence...
Preliminary results from applying a Kerr-Fourier imaging system to a water/air spray produced by a s...
Fuel atomization plays a very crucial role in determining the overall efficiency of diesel internal ...
<p>Fuel sprays play an important role in the combustion process of modern compression ignition engin...
Idlahcen, Said Mees, Loic Roze, Claude Girasole, Thierry Blaisot, Jean-BernardA method to distinguis...
International audienceWe present a quantitative comparison between the high-pressure fuel spray imag...
Time-gated ballistic-photon imaging is a form of shadowgraphy in which an ultrashort, optical-Kerref...
Liquid fuel injection in combustion systems involves multi-phase flows generated by fuel sprays. Stu...
The transportation sector of today relies heavily on fossil fuels. This is undesirable both due to t...
Imaging with ultrashort exposure times is generally achieved with a crossed-beam geometry. In the us...
We describe a practical arrangement for optical sectioning by means of time-gated backscatter imagin...
International audienceA Diesel jet visualization based on an ultra-short light pulse and a time-reso...
The study of liquid jet breakup near the nozzle exit under the complex conditions, where the liquid/...
WOS:000368004600050International audienceModern diesel injectors operate at very high injection pres...
We introduce a new approach to temporally resolve ultrafast micron-scale processes via the use of a ...
International audienceWe present an optical Kerr effect based time-gate with the collinear incidence...
Preliminary results from applying a Kerr-Fourier imaging system to a water/air spray produced by a s...
Fuel atomization plays a very crucial role in determining the overall efficiency of diesel internal ...
<p>Fuel sprays play an important role in the combustion process of modern compression ignition engin...
Idlahcen, Said Mees, Loic Roze, Claude Girasole, Thierry Blaisot, Jean-BernardA method to distinguis...
International audienceWe present a quantitative comparison between the high-pressure fuel spray imag...
Time-gated ballistic-photon imaging is a form of shadowgraphy in which an ultrashort, optical-Kerref...
Liquid fuel injection in combustion systems involves multi-phase flows generated by fuel sprays. Stu...
The transportation sector of today relies heavily on fossil fuels. This is undesirable both due to t...
Imaging with ultrashort exposure times is generally achieved with a crossed-beam geometry. In the us...
We describe a practical arrangement for optical sectioning by means of time-gated backscatter imagin...
International audienceA Diesel jet visualization based on an ultra-short light pulse and a time-reso...
The study of liquid jet breakup near the nozzle exit under the complex conditions, where the liquid/...
WOS:000368004600050International audienceModern diesel injectors operate at very high injection pres...
We introduce a new approach to temporally resolve ultrafast micron-scale processes via the use of a ...