As the success of the desired Attosecond Transient Absorption Spectroscopy technique relies heavily on the technology behind the scene, our first steps lead us to revive the state-of-the-art Ti:Sapphire laser chain and obtain few-cycle (around 5 fs of duration) infrared (IR) laser pulses.
Afterwards, the generation of the high order harmonics (HHG) was implemented and optimized, including a new design of the gas cell.
The old experimental vacuum chamber was not suitable for the Transient Absorption Spectroscopy technique so we designed a new chamber, let it manufactured and installed it into the experimental setup. The chamber was specially designed in order to allow a quick switch between the alignment procedure of the HHG and the Transient Absorption Spectroscopy, as well as the quick switch between the Transient Absorption and the photoelectron / ion time-of-flight (TOF) based measurement. The switch can be performed without breaking the vacuum using motorized translation and rotation stages. During designing of the chamber, special attention was also made to allow an adaptation for using the solid krypton as a target.
As the Transient Absorption Spectroscopy techniques requires scans to run over few tens of minutes and the HHG is highly nonlinear process we were forced to devote lot of efforts to stabilize the overall setup and improve substantially the system of the IR beam pointing stabilization which was completely redone including new home-made controlling software.
In order to check the IR pulse duration in the interaction region of the Transient Absorption Spectroscopy we performed a XUV/IR crosscorrelation using Time Resolved Photoelectron Spectroscopy.
We performed Transient Absorption Spectroscopy of neutral krypton gas and identified the main features in the spectrum. To our best knowledge, the transient absorption spectrum of neutral krypton gas was not published yet.
In summary we achieved:
• main scientific and/or technological achievements
o We revived a laser system after few years of not running.
o We optimized High Harmonic Generation.
o We considerably improved the overall stability of the experimental setup.
o We designed and built an experimental setup for Attosecond Transient Absorption.
o We performed Transient Absorption Spectroscopy on neutral krypton gas.
• main innovation outputs & contribution to the state of the art
o We obtained new and original results of Transient Absorption of the krypton in its neutral state. This also pushes the state-of-the-art of the Transient Absorption Technique further.
• scientific and/or technological quality of the results
o The experimental chamber we designed and built is specifically designed for Time-resolved photoelectron spectroscopy, Time-resolved photoion spectroscopy and Attosecond EUV Transient Absorption Spectroscopy of gases and solids.
o The EUV Transient Absorption of neutral krypton enriches the current knowledge of electronic dynamics of gases.
As we acquired the new results only recently, they were not published in scientific media or reported yet. However, as our institute held a Europhoton 2016 conference, there were guided tours for interested researchers in the laboratories where our experiment was presented.
Our activities were also presented on an invited wide public targeted seminar given in 2016 on Czech Technical University in Prague, Czech Republic.