A Peak Finding Algorithm to Identify Double Peaks in Signal Traces of A 
Reaction Microscope For Measurements of Sequential Two-Photon Double-Ionization 
of Argon at the Free Electron Laser Hamburg

Hilkert, Ann-Sophie

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A Peak Finding Algorithm to Identify Double Peaks in Signal Traces of A Reaction Microscope For Measurements of Sequential Two-Photon Double-Ionization of Argon at the Free Electron Laser Hamburg

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Hilkert, Ann-Sophie
Division Prof. Dr. Thomas Pfeifer, MPI for Nuclear Physics, Max Planck Society;

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Citation

Hilkert, A.-S. (2016). A Peak Finding Algorithm to Identify Double Peaks in Signal Traces of A Reaction Microscope For Measurements of Sequential Two-Photon Double-Ionization of Argon at the Free Electron Laser Hamburg. Bachelor Thesis, Ruprecht-Karls-Universität, Heidelberg.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002B-994F-B

Abstract

A new peak finding software based on a curve sketching algorithm to identify narrow double peak structure in the signal trace of a reaction microscope was implemented. In a testing phase, the peak finding software with the old CFD algorithm and the new CuSket algorithm is processed on measurement data. In a quantitative comparison the result from the peak finding software with a reference value, for CFD and CuSket taken respectively, leads to the resolutions CFD = 2 ns and CuSket = 0.7 ns. The testing phase results in a nearly three times ( CFD CuSket = 2.86) better resolution of CuSket compared to CFD.