Add to ORKGThe interaction of an off-body laser discharge with a hemisphere cylinder in supersonic flow is investigated. The objectives are 1) experimental determination of the drag reduction and energetic efficiency of the laser discharge, and 2) assessment of the capability for accurate simulation of the interaction. The combined computational and experimental study comprises two phases. In the first phase, laser discharge in quiescent air was examined. The temporal behavior of the shock wave formed by the laser discharge was compared between experiment and simulation and good agreement is observed. In the second phase, the interaction of the laser discharge with a hemisphere cylinder was investigated numerically. Details of the pressure drag reduct...
Drag force control via energy deposition in an oncoming flow is a wide area of interest in aerospace...
AbstractPressure sensing and schlieren imaging with high resolution and sensitivity are applied to t...
Proved by numerous studies, the laser-induced energy deposition is applied for wave drag reduction i...
The interaction of on-axis and o -axis laser discharge in front of a hemisphere cylinder in Mach 2.0...
Energy discharge is a novel method for supersonic flight control. Laser energy deposition is shown t...
A drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead of it were experime...
Measurements of the drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead o...
In this Ph.D. dissertation, two separate phenomena have been numerically studied: flow control using...
Research interest has been growing in recent years in supersonic transport, particularly supersonic ...
Experiments were performed within Rutgers University’s supersonic wind tunnel to investigate the eff...
International audienceThe goal of this study is to demonstrate experimentally the "Laser Spike" conc...
Abstract: The interaction of the laser-induced plasma produced by a pulse laser energy depo-sition w...
The effects of repetitive laser-pulse energy depositions (5.5 mJ/pulse) onto a shock wave-boundary l...
A small-scale wind tunnel experiment has been performed to investigate the dynamics of the off-body ...
Laser-induced energy deposition is widely discussed as a flow control technique in supersonic transp...
Drag force control via energy deposition in an oncoming flow is a wide area of interest in aerospace...
AbstractPressure sensing and schlieren imaging with high resolution and sensitivity are applied to t...
Proved by numerous studies, the laser-induced energy deposition is applied for wave drag reduction i...
The interaction of on-axis and o -axis laser discharge in front of a hemisphere cylinder in Mach 2.0...
Energy discharge is a novel method for supersonic flight control. Laser energy deposition is shown t...
A drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead of it were experime...
Measurements of the drag over a flat-nosed cylinder with repetitive laser pulse irradiations ahead o...
In this Ph.D. dissertation, two separate phenomena have been numerically studied: flow control using...
Research interest has been growing in recent years in supersonic transport, particularly supersonic ...
Experiments were performed within Rutgers University’s supersonic wind tunnel to investigate the eff...
International audienceThe goal of this study is to demonstrate experimentally the "Laser Spike" conc...
Abstract: The interaction of the laser-induced plasma produced by a pulse laser energy depo-sition w...
The effects of repetitive laser-pulse energy depositions (5.5 mJ/pulse) onto a shock wave-boundary l...
A small-scale wind tunnel experiment has been performed to investigate the dynamics of the off-body ...
Laser-induced energy deposition is widely discussed as a flow control technique in supersonic transp...
Drag force control via energy deposition in an oncoming flow is a wide area of interest in aerospace...
AbstractPressure sensing and schlieren imaging with high resolution and sensitivity are applied to t...
Proved by numerous studies, the laser-induced energy deposition is applied for wave drag reduction i...