Electro-optical sampling method has been implemented in laser wakefield acceleration experiment at KPSI-QST. We found that the timing of accelerated electron beams can be significantly delayed when self-injection scheme is used in low plasma density. While the time difference can be minimized when the high density is applied or ionization injection is used. A qualitative explanation is made to explain the experimental observation.3rd European Advanced Accelerator Concepts Workshop (EAAC2017
Detections of the pulse durations and arrival timings of relativistic electron beams are important i...
A laser pulse traveling through a plasma can excite large amplitude plasma waves that can be used to...
The effects of experimental variations in the synchronization, laser power, and plasma density on th...
By introducing a non-destructive single-shot EO sampling technique, we succeeded in clocking the ele...
As an advanced accelerator concept, laser wakefield acceleration, with its attractive acceleration g...
By introducing the EO spatial decoding technique, we succeeded clocking theelectron beams generated ...
High power laser-driven electron sources [1,2], with their inherent ultrafast character, are conside...
We established electro-optic (EO) sampling techniques adequate for the diagnostics of electron tempo...
One of the main goals of the ImPACT program is to generate high energy electron beams from staged ac...
We report on an experimental investigation of the jitter of electrons from laser wakefield accelerat...
Laser wakefield acceleration (LWFA)1 has been studied intensively due to the inherent ultrashort bun...
Laser wakefield acceleration (LWFA)1 has been studied intensively due to the inherent ultrashort bun...
Particle acceleration driven by a high power Ti: sapphire laser has invoked great interest worldwide...
By introducing the electro-optic (EO) spatial decoding technique, we succeeded clocking the electron...
Beam profile measurements of laser-wakefield accelerated electron bunches reveal that in the monoene...
Detections of the pulse durations and arrival timings of relativistic electron beams are important i...
A laser pulse traveling through a plasma can excite large amplitude plasma waves that can be used to...
The effects of experimental variations in the synchronization, laser power, and plasma density on th...
By introducing a non-destructive single-shot EO sampling technique, we succeeded in clocking the ele...
As an advanced accelerator concept, laser wakefield acceleration, with its attractive acceleration g...
By introducing the EO spatial decoding technique, we succeeded clocking theelectron beams generated ...
High power laser-driven electron sources [1,2], with their inherent ultrafast character, are conside...
We established electro-optic (EO) sampling techniques adequate for the diagnostics of electron tempo...
One of the main goals of the ImPACT program is to generate high energy electron beams from staged ac...
We report on an experimental investigation of the jitter of electrons from laser wakefield accelerat...
Laser wakefield acceleration (LWFA)1 has been studied intensively due to the inherent ultrashort bun...
Laser wakefield acceleration (LWFA)1 has been studied intensively due to the inherent ultrashort bun...
Particle acceleration driven by a high power Ti: sapphire laser has invoked great interest worldwide...
By introducing the electro-optic (EO) spatial decoding technique, we succeeded clocking the electron...
Beam profile measurements of laser-wakefield accelerated electron bunches reveal that in the monoene...
Detections of the pulse durations and arrival timings of relativistic electron beams are important i...
A laser pulse traveling through a plasma can excite large amplitude plasma waves that can be used to...
The effects of experimental variations in the synchronization, laser power, and plasma density on th...