University of Jyväskylä

Dissertation: 19.1.2018 FM Janne Laulainen (Faculty of Mathematics and Science, Physics)

Start date: Jan 19, 2018 12:00 PM

End date: Jan 19, 2018 03:00 PM

Location: Ylistönrinne, FYS1

FM Janne Laulainen defends his doctoral dissertation in Physics "Hydrogen Plasma Induced Photoelectron Emission from Metal Surfaces".Opponent Dr. Dan Faircloth (Rutherford Appleton Laboratory Oxfordshire, U.K.) and custos Dr. Olli Tarvainen (University of Jyväskylä).The doctoral dissertation is held in English.

Janne LaulainenFM Janne Laulainen defends his doctoral dissertation in Physics "Hydrogen Plasma Induced Photoelectron Emission from Metal Surfaces". Opponent Dr. Dan Faircloth (Rutherford Appleton Laboratory Oxfordshire, U.K.) and custos Dr. Olli Tarvainen (University of Jyväskylä). The doctoral dissertation is held in English.

Low temperature hydrogen plasmas are strong sources of vacuum ultraviolet radiation. The properties of laboratory plasmas can be influenced by surface processes induced by photons with their energies exceeding the surface work function of the wall material.

In this work, the plasma induced photoelectron emission has been studied with different ion sources. The emission depends on the mechanical design of the plasma device, plasma heating method and the discharge power (density). Parametric studies include the quantifying of the emission from different metal surfaces, commonly used as plasma facing materials in ion sources, as well as alkali metal covered surfaces. Experimental studies suggest that low temperature hydrogen plasma induced photoelectron emission from metal surfaces can reach an order of magnitude of 1 A per kW of plasma heating power. Furthermore, the emission can increase 2-3.5 times when the metal surface is coated with a thin layer of alkali metal reducing the work function. The free electrons produced by the photoelectron emission can influence various plasma processes and especially the plasma sheath structure, which has been studied using a one-dimensional analytical model.

Link to dissertation: https://www.jyu.fi/static/fysiikka/vaitoskirjat/2018/Laulainen-Janne_2018

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Janne Laulainen
janne.p.laulainen@student.jyu.fi
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