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Bimodal behavior of post-measured entropy and one-way quantum deficit for two-qubit X states

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 نشر من قبل Mikhail Yurischev
 تاريخ النشر 2017
  مجال البحث فيزياء
والبحث باللغة English
 تأليف M.A. Yurischev




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A method for calculating the one-way quantum deficit is developed. It involves a careful study of post-measured entropy shapes. We discovered that in some regions of X-state space the post-measured entropy $tilde S$ as a function of measurement angle $thetain[0,pi/2]$ exhibits a bimodal behavior inside the open interval $(0,pi/2)$, i.e., it has two interior extrema: one minimum and one maximum. Furthermore, cases are found when the interior minimum of such a bimodal function $tilde S(theta)$ is less than that one at the endpoint $theta=0$ or $pi/2$. This leads to the formation of a boundary between the phases of one-way quantum deficit via {em finite} jumps of optimal measured angle from the endpoint to the interior minimum. Phase diagram is built up for a two-parameter family of X states. The subregions with variable optimal measured angle are around 1$%$ of the total region, with their relative linear sizes achieving $17.5%$, and the fidelity between the states of those subregions can be reduced to $F=0.968$. In addition, a correction to the one-way deficit due to the interior minimum can achieve $2.3%$. Such conditions are favorable to detect the subregions with variable optimal measured angle of one-way quantum deficit in an experiment.



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