Minimal Energy Cost to Initialize a Quantum Bit with Tolerable Error
Abstract
Landauer's principle imposes a fundamental limit on the energy cost to perfectly initialize a classical bit, which is only reached under the ideal operation with infinite-long time. The question on the cost in the practical operation for a quantum bit (qubit) has been posted under the constraint by the finiteness of operation time. We discover a raise-up of energy cost by from the Landaeur's limit () for a finite-time initialization with an error probability . The thermodynamic length between the states before and after initializing in the parametric space increases monotonously as the error decreases. For example, in the constant dissipation coefficient () case, the minimal additional cost is for and for . Furthermore, the optimal protocol to reach the bound of minimal energy cost is proposed for the qubit initialization realized via a finite-time isothermal process.
Keywords
Cite
@article{arxiv.2112.07311,
title = {Minimal Energy Cost to Initialize a Quantum Bit with Tolerable Error},
author = {Yu-Han Ma and Jin-Fu Chen and C. P. Sun and Hui Dong},
journal= {arXiv preprint arXiv:2112.07311},
year = {2022}
}
Comments
5+5 pages, 3+3 figure, Comments are welcome