Logical and thermodynamical reversibility: optimized experimental implementation of the NOT operation Article Swipe
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· 2023
· Open Access
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· DOI: https://doi.org/10.5281/zenodo.8099301
· OA: W4393921054
<strong>Dataset for the article:</strong> Logical and thermodynamical reversibility: optimized experimental implementation of the NOT operation to be published in PRE <strong>Files description: </strong> <strong>.fig:</strong> Matlab Figures used to create the figures of the article <strong>Analysis.mat:</strong> mat file storing the analysis of 4538 bitflip protocols. dQall: average infinitesimal heat evolution along a protocol dt: sampling rate dW: average infinitesimal work evolution along a protocol f0: resonance frequency of the cantilever Klist: average kinetic energy evolution along a protocol N: number of protocols Qhisto: array of the average heat released for the N protocols sigma_m: position variance implemented in the FPGA at the beginning of the N protocols sigmalist: position variance recalibrated for each protocol tau1: duration of the bitflip Teq: duration of the equlivration step trelax: time between protocols Ulist: average potential energy evolution along a protocol Vplot: protocol driving for the plot Whisto: array of the average work released for the N protocols x0plot: protocol driving for the plot xplot: position signal for plotting <strong>bitflip.m: </strong> Analysis code to obtain the Analysis.mat type of files from the dataset of N protocols. <strong>bitflip_01.mat to bitflip_1000.mat</strong> Experimental data of bitflip protocols. The driving and the system position are stored, and some acquisition parameters. These files are designed to be analysed by bitflip.m .
