Relativistic Electron Mirrors

Description:

A dense sheet of electrons accelerated to close to the speed of light can act as a tuneable mirror that can generate bright bursts of laser-like radiation in the short wavelength range simply via the reflection of a counter-propagating laser pulse. This thesis investigates the generation of such a relativistic electron mirror structure in a series of experiments accompanied by computer simulations. It is shown that such relativistic mirror can indeed be created from the interaction of a high-intensity laser pulse with a nanometer-scale, ultrathin foil. The reported work gives a intriguing insight into the complex dynamics of high-intensity laser–nanofoil interactions and constitutes a major step towards the development of a relativistic mirror, which could potentially generate bright burst of X-rays on a micro-scale.

subjects: Lasers,  Metallic films,  Physics,  Particle acceleration,  Plasma Physics,  Beam Physics Particle Acceleration and Detection,  Optics, Optoelectronics, Plasmonics and Optical Devices,  Nanoscale Science and Technology