量研学術機関リポジトリ「QST-Repository」は、国立研究開発法人 量子科学技術研究開発機構に所属する職員等が生み出した学術成果(学会誌発表論文、学会発表、研究開発報告書、特許等)を集積しインターネット上で広く公開するサービスです。 Welcome to QST-Repository where we accumulates and discloses the academic research results(Journal Publications, Conference presentation, Research and Development Report, Patent, etc.) of the members of National Institutes for Quantum Science and Technology.
Thank you very much for using our website. On the 11th of March 2019, this site was moved from our own network server to the JAIRO Cloud network server. If you previously bookmarked this site, that bookmark will no longer work. We would be grateful if you could bookmark the website again. Thank you very much for your understanding and cooperation.
Soft X-ray (SXR) spectra from hafnium and tantalum laser produced plasmas were recorded in the 1–7 nm region using two Nd:YAG lasers with pulse lengths of 170 ps and 10 ns, respectively, operating at a range of power densities. The maximum focused peak power density was 2.3 x 10^14 W cm^2 for 170 ps pulses and 1.8 x 10^12 W cm^2 for 10 ns pulses, respectively. Two intense quasicontinuous intensity bands resulting from n = 4 – n = 4 and n = 4 – n = 5 unresolved transition arrays (UTAs) dominate both sets of experimental spectra. Comparison with calculations performed with the Cowan suite of atomic structure codes as well as consideration of previous experimental and theoretical results aided identification
of the most prominent features in the spectra. For the 10 ns spectrum, the highest ion stage that could be identified from the n = 4 – n = 5 arrays were lower than silver-like H^{25+} and Ta^{26+} (which has a 4d^10 4f ground configuration) indicating that the plasma temperature attained was too low to produce ions with an outermost 4d subshell, while for the 170 ps plasmas the presence of significantly higher stages was deduced and lines due to 4d–5p transitions were clearly evident. Furthermore, we show an enhancement of emission from tantalum using dual laser irradiation, and the effect of pre-pulse durations and delay times between two pulses are demonstrated.
Characteristics of laser produced plasmas of hafnium and tantalum in the 1-7 nm region
