Add to ORKGThe study of the transport of electrons, and the flow of energy into a solid target or dense plasma, is instrumental in the development of fast ignition inertial confinement fusion. An extreme ultraviolet (XUV) imaging diagnostic at 256 eV and 68 eV provides information about heating and energy deposition within petawatt laser-irradiated targets. XUV images of several irradiated solid targets are presented
The advancement of laboratory based Extreme Ultraviolet (EUV) radiation has escalated with the desir...
The transport of energetic electron beams generated from aluminum foils irradiated by ultraintense l...
This thesis was previously held under moratorium from 4/11/2019 to 07/11/2023The laser wakefield acc...
Three independent methods (XUV spectroscopy, imaging at 68 eV and 256 eV) have been used to measure ...
Understanding hydrodynamic phenomena driven by fast electron heating is important for a range of app...
During the interaction of short and ultraintense laser pulses with solids a copious amount of so-cal...
This thesis explores the applications of extreme ultra-violet (EUV) radiation to the probing of plas...
An integrated experiment relevant to fast ignition. A Cu-doped deuterated polymer spherical shell ta...
This thesis presents experimental measurements of fast electron energy transport made using optical ...
Laser-plasma studies have been undertaken for 50 years using infra-red to ultra-violet lasers. We sh...
We present experimental data of electron energy distributions from ultra-intense (>10{sup 19} W/c...
textA series of experiments have been performed to understand fast electron generation from ultra in...
When the output of a high-power laser is focussed onto the surface of a solid target, a localised an...
Ionization in experiments where solid targets are irradiated by high irradiance extreme ultra-violet...
This thesis described the generation and transportation of hot electron in fast ignition experiments...
The advancement of laboratory based Extreme Ultraviolet (EUV) radiation has escalated with the desir...
The transport of energetic electron beams generated from aluminum foils irradiated by ultraintense l...
This thesis was previously held under moratorium from 4/11/2019 to 07/11/2023The laser wakefield acc...
Three independent methods (XUV spectroscopy, imaging at 68 eV and 256 eV) have been used to measure ...
Understanding hydrodynamic phenomena driven by fast electron heating is important for a range of app...
During the interaction of short and ultraintense laser pulses with solids a copious amount of so-cal...
This thesis explores the applications of extreme ultra-violet (EUV) radiation to the probing of plas...
An integrated experiment relevant to fast ignition. A Cu-doped deuterated polymer spherical shell ta...
This thesis presents experimental measurements of fast electron energy transport made using optical ...
Laser-plasma studies have been undertaken for 50 years using infra-red to ultra-violet lasers. We sh...
We present experimental data of electron energy distributions from ultra-intense (>10{sup 19} W/c...
textA series of experiments have been performed to understand fast electron generation from ultra in...
When the output of a high-power laser is focussed onto the surface of a solid target, a localised an...
Ionization in experiments where solid targets are irradiated by high irradiance extreme ultra-violet...
This thesis described the generation and transportation of hot electron in fast ignition experiments...
The advancement of laboratory based Extreme Ultraviolet (EUV) radiation has escalated with the desir...
The transport of energetic electron beams generated from aluminum foils irradiated by ultraintense l...
This thesis was previously held under moratorium from 4/11/2019 to 07/11/2023The laser wakefield acc...