01412nam a22002057a 4500 20240409113048.0 240409b |||||||| |||| 00| 0 eng d 0031-921X Löfgren, Sebastian The Mechanical Paul Trap : Introducing the Concept of Ion Trapping (Journal Article) Washington :American Association of Physics Teachers , December 2023 762–765p. The Physics Teacher Volume 61, Number 9, December 2023 ***______{For Hard Copy, Please visit Library.}________*** Abstract: Nobel laureate Wolfgang Paul showed, back in the 1950s, that charged particles can be trapped using alternating electric fields.1 This technique is commonly referred to as a Paul trap or a radiofrequency trap (RF-trap) and is used in various areas of modern physics. This paper presents a 3D-printed mechanical Paul trap, a naive simulation of the system in Python, and student investigations. The files for the 3D-printed trap are available for download and print,2 and the code for the simulation is available to run and tinker with Ion-trap| 3D printing| Quadrupole ion traps| Computer simulation| Learning and learning models| Lesson plans Fragoso, Kilde Ricardo Méndez | Weidow, Jonathan | Enger, Jonas https://doi.org/10.1119/5.0106359 PER 0 0 0 0 RIEBPL RIEBPL 2024-04-09 0 2024-04-09 11:31:03 2024-04-09 PER 45703 45702