Code Supplement: Sideband Thermometry on Ion Crystals

Contents: 1. Python file. Given the motional mode of an ion crystal calculates the mode-dependent coefficients (A,B-,C-,D-). Given the experimental parameters and sideband probability measurement, calculates the mean phonon number by solving the quartic equation derived in the paper. 2. Wolfram Mathematica notebook. Given the relevant Hamiltonian matrix elements calculates the explicit expressions for the crystal's ground state probabilities. By thermal averaging the ground state probabilities derives the full form of the equation connecting the sideband excitation probabilities with the mean phonon number.

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Cite this as

Ivan Vybornyi, Klemens Hammerer (2023). Code Supplement: Sideband Thermometry on Ion Crystals [Data set]. LUIS. https://doi.org/10.25835/662v76zo
Retrieved: 10:31 18 Jul 2026 (UTC)

Additional Info

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Author Ivan Vybornyi, Klemens Hammerer
Maintainer Ivan Vybornyi
Version 1.0
Last Updated June 9, 2023, 09:10 (UTC)
Created February 28, 2023, 11:29 (UTC)
License Creative Commons Attribution 3.0
Dataset Size 37.7 KByte