Add to ORKGProved by numerous studies, the laser-induced energy deposition is applied for wave drag reduction in supersonic flow. Due to the optical air breakdown threshold of about 10ˆ9W/cm² (for CO2-laser radiation in atmospheric conditions), the experimental realisation nowadays is still restricted to the pulsed regime of solid-state and gas laser systems (ns- to µs time domains). A reasonable use of this flow control principle requires the increase of deposited energy in air. In a laser breakdown application, the phase shift determines the energy absorption. The measured phase shift, realized by a Nomarski interferometer setup, indicates the electron density of the laser induced air breakdown. Numerical, 3-dimensional spatial and temporal simula...
The interaction of an off-body laser discharge with a hemisphere cylinder in supersonic flow is inve...
Measurements of the drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead o...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...
A highly concentrated energy deposition has been proposed for a flow control concept in super- and h...
Laser-induced energy deposition is widely discussed as a flow control technique in supersonic transp...
Energy discharge is a novel method for supersonic flight control. Laser energy deposition is shown t...
International audienceThe goal of this study is to demonstrate experimentally the "Laser Spike" conc...
Laser energy deposition has brought great interest to researchers due to its applications in drag re...
The laser propagation and energy absorption at different pressures of air are investigated using 10 ...
Laser plasma was produced in a Af=2 flow, in a quiescent standard atmosphere, and in a quiescent air...
An experimental study has been conducted and compared with a computed numerical model in order to de...
International audienceA picosecond 200-mJ pulsed laser operating at 1 kHz is used to create large as...
Experiments were performed within Rutgers University’s supersonic wind tunnel to investigate the eff...
Research interest has been growing in recent years in supersonic transport, particularly supersonic ...
A small-scale wind tunnel experiment has been performed to investigate the dynamics of the off-body ...
The interaction of an off-body laser discharge with a hemisphere cylinder in supersonic flow is inve...
Measurements of the drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead o...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...
A highly concentrated energy deposition has been proposed for a flow control concept in super- and h...
Laser-induced energy deposition is widely discussed as a flow control technique in supersonic transp...
Energy discharge is a novel method for supersonic flight control. Laser energy deposition is shown t...
International audienceThe goal of this study is to demonstrate experimentally the "Laser Spike" conc...
Laser energy deposition has brought great interest to researchers due to its applications in drag re...
The laser propagation and energy absorption at different pressures of air are investigated using 10 ...
Laser plasma was produced in a Af=2 flow, in a quiescent standard atmosphere, and in a quiescent air...
An experimental study has been conducted and compared with a computed numerical model in order to de...
International audienceA picosecond 200-mJ pulsed laser operating at 1 kHz is used to create large as...
Experiments were performed within Rutgers University’s supersonic wind tunnel to investigate the eff...
Research interest has been growing in recent years in supersonic transport, particularly supersonic ...
A small-scale wind tunnel experiment has been performed to investigate the dynamics of the off-body ...
The interaction of an off-body laser discharge with a hemisphere cylinder in supersonic flow is inve...
Measurements of the drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead o...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...