Laser-driven ion sources: How can we use a laser as an accelerator?
Since the 1980s, techniques of electrons and positive ions acceleration through the interaction of extremely strong laser pulses with plasma, have been developed. These experiments were a practical implementation of the concept of "coherent acceleration" proposed by Veksler [1] in 1957. In the 1980s proton energies far below 1 MeV were obtained using this technique. The breakthrough came in the next decade when the ultra-high peak power and ultra-short pulse (sub-ps to few tens of fs) lasers were realized and a multi-MeV proton energies have become available. It was possible because of two inventions in the laser science:
- the chirped pulse amplification technique,
- the Kerr lens mode-locking technique.
As a consequence, a new type of ion source was developed. This source is characterized by extremely small dimensions (typically ~ 10 mm), the ultra-short duration (picosecond regime) and broad energy spectrum. These properties make this source suitable for many, including several unique, applications.
During my seminar I will present the history of laser-driven ion acceleration techniques and the state of art of this field. I will illustrate my presentation using some recent experimental results from leading laboratories in the world. I will highlight different applications of laser-driven ion beams. Last but not least, I will comment how laser-driven acceleration techniques could affect some research in the fundamental physics.
To participate in the webinar, please, contact dr Szymon Pustelny (szymon.pustelny@uj.edu.pl) MS Teams Channel: Zakład Fotoniki IF UJ. Link to the channel: https://teams.microsoft.com/l/channel/19%3a3721f0b9286c47c78efdd4f33e6adf7a%40thread.tacv2/Og%25C3%25B3lny?groupId=d4c030cf-1dbb-4300-ad6d-f346f7a2dd08&tenantId=eb0e26eb-bfbe-47d2-9e90-ebd2426dbceb
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