T.H.M. van de Ven scite author profile

Reefman

Meijere

et al. 2018

This work reports on the measurements of ion flux composition and ion energy distribution functions (IEDFs) at surfaces in contact with hydrogen plasmas induced by extreme ultraviolet (EUV) radiation. This special type of plasma is gaining interest from industries because of its appearance in extreme ultraviolet lithography tools, where it affects exposed surfaces. The studied plasma is induced in 5 Pa hydrogen gas by irradiating the gas with short (30 ns) pulses of EUV radiation (k ¼ 10-20 nm). Due to the low duty cycle (10-4), the plasma is highly transient. The composition and IEDF are measured using an energy resolved ion mass spectrometer. The total ion flux consists of H þ ; H þ 2 , and H þ 3. H þ 3 is the dominant ion as a result of the efficient conversion of H þ 2 to H þ 3 upon collision with background hydrogen molecules. The IEDFs of H þ 2 and H þ 3 appear similar, showing a broad distribution with a cutoff energy at approximately 8 eV. In contrast, the IEDF of H þ shows an energetic tail up to 18 eV. Most probably, the ions in this tail gain their energy during their creation process by photoionization and dissociative electron impact ionization.

Analysis of retarding field energy analyzer transmission by simulation of ion trajectories

Meijere

Horst

et al. 2018

Retarding field energy analyzers (RFEAs) are used routinely for the measurement of ion energy distribution functions. By contrast, their ability to measure ion flux densities has been considered unreliable because of lack of knowledge about the effective transmission of the RFEA grids. In this work, we simulate the ion trajectories through a three-gridded RFEA using the simulation software SIMION. Using idealized test cases, it is shown that at high ion energy (i.e., >100 eV) the transmission is equal to the optical transmission rather than the product of the individual grid transparencies. Below 20 eV, ion trajectories are strongly influenced by the electric fields in between the grids. In this region, grid alignment and ion focusing effects contribute to fluctuations in transmission with ion energy. Subsequently the model has been used to simulate the transmission and energy resolution of an experimental RFEA probe. Grid misalignments reduce the transmission fluctuations at low energy. The model predicts the minimum energy resolution, which has been confirmed experimentally by irradiating the probe with a beam of ions with a small energy bandwidth.

Energy distribution functions for ions from pulsed EUV-induced plasmas in low pressure N2-diluted H2 gas

Beckers

Meijere

et al. 2019

Investigation of ion energy distribution functions in EUV-induced plasmas by ion mass spectrometry

Reefman

Osorio

et al. 2016

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