Related papers: Construction of PPT entangled state and its detection by using second-order moment of the partial transposition

Construction of PPT entangled state and its detection by using second-order moment of the partial transposition

URL: http://arxiv.org/abs/2509.06565v1
Date: Mon, 08 Sep 2025 11:25:10 GMT
Title: Construction of PPT entangled state and its detection by using second-order moment of the partial transposition
Authors: Rohit Kumar, Satyabrata Adhikari,
Abstract summary: We construct a new family of positive partial transpose (PPT) states, which includes separable and entangled states (PPTES) in a $d_1otimes d_2$ dimensional system.<n>We will then construct a quantum state by considering the mixture of a separable and an entangled state.<n>Applying our results, we have shown that the distillable key rate of the private state, prepared through our prescription, is positive.
Score: 1.2078273498134855
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this work, we adopt a formalism by which we construct a new family of positive partial transpose (PPT) states, which includes separable and PPT entangled states (PPTES) in a $d_{1}\otimes d_{2}$ dimensional system and then derive a condition that can distinguish between them. The PPT condition is expressed in terms of the inequality between the second-order moment of the system's partial transposition $(p_2)$ and the reciprocal of the product of $d_{1}$ and $d_{2}$. The second order moment $(p_{2})$ plays a vital role in detecting the PPT states as it is very easy to calculate and may be a realizable quantity in an experiment. Once we know that the given state is a PPT state, we will use a suitable witness operator to detect whether the given PPT state is a PPTES. Further, we have established a relation between the second and third order moments of partial transposition of a PPT state and have shown that the violation of the inequality implies that the detected state is a negative partial transpose (NPT) entangled state. We will then construct a quantum state by considering the mixture of a separable and an entangled state and obtain a condition on the mixing parameter for which the mixture represents a PPT entangled state. We observe that the resulting PPT entangled state may also be detected by the same witness operator $W$, which had detected the entangled state present in the mixture. Finally, applying our results, we have shown that the distillable key rate of the private state, prepared through our prescription, is positive. It suggests that our result also has potential applications in quantum cryptography.

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