Code supplement: Line search by quantum logic spectroscopy enhanced with squeezing and statistical tests

doi:doi:10.25835/2z11et40

Code supplement: Line search by quantum logic spectroscopy enhanced with squeezing and statistical tests

The code includes microscopic simulation of the signaling lineshape in the scenario described in the paper and the implementation of the Neyman-Pearson test for distinguishing the signal from noise and assess the errors of type 1 and 2. We also include code for optimizing the transition search parameters to find the fastest search strategy. Please see the comments in the code for more details.

Contents: 1. Code supplement file as a jupyter notebook 2. Code supplement file as a .py file

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CODE SUPPLEMENT I.Vybornyi, K.Hammerer (py file).pypython
File size: 29.1 KByte
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CODE SUPPLEMENT I.Vybornyi, K.Hammerer (jupyter).ipynbipynb
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Cite this as

Ivan Vybornyi, Klemens Hammerer (2025). Code supplement: Line search by quantum logic spectroscopy enhanced with squeezing and statistical tests [Data set]. LUIS. https://doi.org/10.25835/2z11et40

Retrieved: 14:38 04 Jun 2026 (UTC)

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Additional Info

Field	Value
Author	Ivan Vybornyi, Klemens Hammerer
Maintainer	Ivan Vybornyi
Last Updated	May 26, 2025, 14:19 (UTC)
Created	May 20, 2025, 09:02 (UTC)
License	Creative Commons Attribution 3.0
Dataset Size	65.6 KByte