Investigating the stability of a laser-based plasma x-ray source

Abstract: The use of laser based plasma x-ray sources (LPXS) has quickly expanded during the past decades due to rapid development of ultrafast laser systems. These sources are used in many research applications such as emission, absorption and particularly time-resolved spectroscopy. From the LPXS x-ray pulses are generated when an intense laser pulse is focused onto a liquid or solid interface in gas or vacuum. In this thesis we investigate the source stability which we define as the x-ray flux and spectrum reproducibility from each generated x-ray pulse. Understanding the stability is of great importance for its research applications. A basic theory of the LPXS is introduced describing relevant parameters for the source stability. Two parameters of relevance for the LPXS stability were investigated: The laser pointing and pulse energy fluctuations. These were experimentally determined using a beam profiler, capturing the beam profile of each laser pulse at 1 kHz. The relevance of these parameter fluctuations to the source stability is discussed based on these measurements. An existing LPXS setup was reconstructed in preparation for shot to shot stability measurements. A synchronized chopper system was built to decrease the laser pulse frequency for single pulsed mode and a program was developed for analyzing the x-ray photons captured by an x-ray CCD camera. Problems with the laser system prevented successful gathering of data within the time of the project. Future measurements based on these preparations will reveal the stability of the LPXS.