Stages and
activities of the project
Stage I. Theoretical study of the models describing the laser-plasma
interaction and harmonics generation
(16.10.2020 – 31.12.2020)
A.I:1. Study
of the plasma mirror model for HHG and plasma dynamics, numerical programming
in COMSOL and MATLAB
A.I.2. Project
management
Stage II. Numerical simulations and
experiments on HHG and generating-plasma dynamics
(1.01.2021 – 31.12.2021)
A.II.1. Numerical
simulations on HHG and plasma dynamics
A.II.2. Experiments
on efficiency of HHG on solid and gas targets
A.II.3. Project
management and disemination of results
Stage III. Experimental study on
properties of harmonics and their influence on characteristics of comercial
optical fibres used near the target
(1.01.2022 – 31.12.2022)
A.III.1. Experimental
study on properties of harmonics in relation to properties of driving laser in
focus for laser diagnosis
A.III.2. Determination
of main characteristics of optical fibres used near the target when exposed to
UV, X and gamma radiation
A.II.I3. Project
management and disemination of results
Stage IV. Spectroscopic analysis of the laser produced plasma in
relation to the generated harmonics properties for plasma diagnosis
(1.01.2023- 15.10.2023)
A.IV.1. Spectroscopic
study on the properties of the generating plasmas as a function of laser
properties
A.IV.2. Experimental
study on properties of harmonics in relation to properties of generating plasma
for plasma diagnosis
A.IV.3. Project
management and disemination of results