Preeti Parashar scite author profile

We show that trace distance measure of coherence is a strong monotone for all qubit and, so called, $X$ states. An expression for the trace distance coherence for all pure states and a semi definite program for arbitrary states is provided. We also explore the relation between $l_1$-norm and relative entropy based measures of coherence, and give a sharp inequality connecting the two. In addition, it is shown that both $l_p$-norm- and Schatten-$p$-norm-based measures violate the (strong) monotonicity for all $p\in(1,\infty)$.Comment: 7 pages, 1 figure; published versio

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Probabilistic superdense coding

Pati

Parashar

Agrawal

2005

Phys. Rev. A

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We explore the possibility of performing super dense coding with non-maximally entangled states as a resource. Using this we find that one can send two classical bits in a probabilistic manner by sending a qubit. We generalize our scheme to higher dimensions and show that one can communicate 2 log 2 d classical bits by sending a d-dimensional quantum state with a certain probability of success. The success probability in super dense coding is related to the success probability of distinguishing non-orthogonal states. The optimal average success probabilities are explicitly calculated. We consider the possibility of sending 2 log 2 d classical bits with a shared resource of a higher dimensional entangled state (D × D, D > d). It is found that more entanglement does not necessarily lead to higher success probability. This also answers the question as to why we need log 2 d ebits to send 2 log 2 d classical bits in a deterministic fashion.

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Logarithmic coherence: Operational interpretation of ℓ1 -norm coherence

et al. 2017

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We show that the distillable coherence-which is equal to the relative entropy of coherence-is, up to a constant factor, always bounded by the 1 -norm measure of coherence (defined as the sum of absolute values of off diagonals). Thus the latter plays a similar role as logarithmic negativity plays in entanglement theory and this is the best operational interpretation from a resource-theoretic viewpoint. Consequently the two measures are intimately connected to another operational measure, the robustness of coherence. We find also relationships between these measures, which are tight for general states, and the tightest possible for pure and qubit states. For a given robustness, we construct a state having minimum distillable coherence.

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Tight lower bound on geometric discord of bipartite states

Rana

Parashar

2012

Phys. Rev. A

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We use singular value decomposition to derive a tight lower bound for geometric discord of arbitrary bipartite states. In a single shot this also leads to an upper bound of measurement-induced non locality which in turn yields that for Werner and isotropic states the two measures coincide. We also emphasize that our lower bound is saturated for all $2\otimes n$ states. Using this we show that both the generalized Greenberger-Horne-Zeilinger and $W$ states of $N$ qubits satisfy monogamy of geometric discord. Indeed, the same holds for all $N$-qubit pure states which are equivalent to $W$ states under stochastic local operations and classical communication. We show by giving an example that not all pure states of four or higher qubits satisfy monogamy.Comment: 4 page

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Nonlocal properties and local invariants for bipartite systems

et al. 2003

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Preeti Parashar

Trace-distance measure of coherence

Probabilistic superdense coding

Logarithmic coherence: Operational interpretation of ℓ1 -norm coherence

Tight lower bound on geometric discord of bipartite states

Nonlocal properties and local invariants for bipartite systems

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