Add to ORKGSpark discharges in dielectric fluids result in the formation of highly conductive plasma-vapour cavities between the electrodes. These cavities have extremely high internal pressure (up to several GPa) and expansion velocities. In water for example, the spark plasma cavity can expand with a velocity of 100 to 1000 m/s. Such hydro-dynamic parameters make plasma transient cavities a useful source of high power ultrasound (HPU) pulses in dielectric liquids. The HPU pulses generated by the plasma discharges are extremely wide band and can be used in practical applications. The spark discharges can be generated by two approaches: using free discharges in the fluid and by placing a thin guide wire between the electrodes. Both free and wire-guide...
The high voltage impulsive breakdown process in water is complex, with the nature of the impulsive b...
The extremely rapid formation and expansion of a plasma channel created between two electrodes in a ...
The present paper is focused on investigation of the electrical, hydrodynamic and acoustic parameter...
Spark discharges in dielectric fluids result in the formation of highly conductive plasma-vapour cav...
Electrical discharges in liquid radiate Aide-band high power ultrasound (HPU) pulses which are the r...
Application of a voltage pulse having a rise time of tens of nanoseconds to electrodes immersed in w...
It is impractical to achieve the desired combination of power and bandwidth from conventional electr...
Underwater spark discharges are used in multiple practical applications including plasma closing swi...
The application of microsecond and sub-microsecond electric impulses of sufficient magnitude to wate...
This thesis presents the experimental studies performed to optimise underwater supersonic plasma dis...
The detection and identification of undersea objects is achieved using acoustic pulses which travel ...
lf water is stressed with a voltage pulse having a rise time of tens of nanoseconds which creates a ...
Considerable research efforts have been expended in investigating and optimising the emission of aco...
IEEE A supersonic underwater discharge system, driven by a pulsed power generator with 235 ns voltag...
High Power Ultrasound (HPU) can be generated by the application of Pulsed Power Technology to produc...
The high voltage impulsive breakdown process in water is complex, with the nature of the impulsive b...
The extremely rapid formation and expansion of a plasma channel created between two electrodes in a ...
The present paper is focused on investigation of the electrical, hydrodynamic and acoustic parameter...
Spark discharges in dielectric fluids result in the formation of highly conductive plasma-vapour cav...
Electrical discharges in liquid radiate Aide-band high power ultrasound (HPU) pulses which are the r...
Application of a voltage pulse having a rise time of tens of nanoseconds to electrodes immersed in w...
It is impractical to achieve the desired combination of power and bandwidth from conventional electr...
Underwater spark discharges are used in multiple practical applications including plasma closing swi...
The application of microsecond and sub-microsecond electric impulses of sufficient magnitude to wate...
This thesis presents the experimental studies performed to optimise underwater supersonic plasma dis...
The detection and identification of undersea objects is achieved using acoustic pulses which travel ...
lf water is stressed with a voltage pulse having a rise time of tens of nanoseconds which creates a ...
Considerable research efforts have been expended in investigating and optimising the emission of aco...
IEEE A supersonic underwater discharge system, driven by a pulsed power generator with 235 ns voltag...
High Power Ultrasound (HPU) can be generated by the application of Pulsed Power Technology to produc...
The high voltage impulsive breakdown process in water is complex, with the nature of the impulsive b...
The extremely rapid formation and expansion of a plasma channel created between two electrodes in a ...
The present paper is focused on investigation of the electrical, hydrodynamic and acoustic parameter...