Distinguishability of Bell States

Ghosh, Sibasish; Kar, Guruprasad; Roy, Anirban; Sen, Aditi; Sen, Ujjwal

doi:10.1103/physrevlett.87.277902

Cited by 265 publications

(271 citation statements)

References 11 publications

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“…However, it has been proven that a complete BSM (distinguishing between the four states with 100% efficiency) is impossible using only linear operations and classical communication [8,9,10,11]. In fact, Ghosh et.…”

Section: Introductionmentioning

confidence: 99%

“…al. [11] have proven that, if only a single copy is provided, the best one can do is discriminate between two Bell states. Calsamiglia and Lütkenhaus [10] have shown that the maximum efficiency for a linear Bell-state analyzer is 50%.…”

Section: Introductionmentioning

confidence: 99%

“…Utilizing entanglement in additional auxiliary degrees of freedom, it is possible to perform a complete BSM. Due to the enlarged Hilbert space, this type of complete BSM is not restricted to the efficiency limits presented in [8,9,10,11]. Kwiat and Weinfurter [25] have proposed a scheme using photons entangled in polarization and momentum (spatial mode).…”

Section: Introductionmentioning

confidence: 99%

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Hyperentanglement-assisted Bell-state analysis

2003

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We propose a simple scheme for complete Bell-state measurement of photons using hyperentangled states -entangled in multiple degrees of freedom. In addition to hyperentanglement, our scheme requires only linear optics and single photon detectors, and is realizable with current technology. At the cost of additional classical communication, our Bell-state measurement can be implemented nonlocally. We discuss the possible application of these results to quantum dense coding and quantum teleportation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Hyperentanglement-assisted Bell-state analysis

2003

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“…Some of them considered the set with maximally entangled states [5][6][7][8][9][10][11][12][13][14], while the others aimed at the set with product states [2,[15][16][17][18][19][20][21][22][23][24][25][26]. Both of these researches can lead us a better understanding the limitation of the local operations and classical communication.…”

Section: Introductionmentioning

confidence: 99%

Nonlocality of orthogonal product-basis quantum states

et al. 2015

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We study the local indistinguishability of mutually orthogonal product basis quantum states in the high-dimensional quantum system. In the quantum system of C d ⊗ C d , where d is odd, Zhang et al have constructed d 2 orthogonal product basis quantum states which are locally indistinguishable in [Phys. Rev. A. 90, 022313(2014)]. We find a subset contains with 6d − 9 orthogonal product states which are still locally indistinguishable. Then we generalize our method to arbitrary bipartite quantum system C m ⊗ C n . We present a small set with only 3(m + n) − 9 orthogonal product states and prove these states are LOCC indistinguishable. Even though these 3(m + n) − 9 product states are LOCC indistinguishable, they can be distinguished by separable measurements. This shows that separable operations are strictly stronger than the local operations and classical communication.

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“…But any great circle of the Bloch sphere is of particular interest : (i) any great circle is the largest set of Bloch vectors that can be exactly flipped [18,19], and this fact can be used for remote (exact) state preparation [20], (ii) a product state of two parallel qubits and the corresponding product state of two antiparallel qubits contain equivalent information about the qubit, if the Bloch vectors of all these qubits lie on the same great circle [21], (iii) the optimal universal 1 → 2 (isotropic) cloning machine of the equator (on which the states |0 , |1 , (1/ √ 2)(|0 ±|1 ) lie) is the same as that of the set {|0 , |1 , (1/ √ 2)(|0 ±|1 )} [22]. We consider here the set of all entangled states, where all the Bloch vectors of the reduced density matrices of one side lie on the disc of a great circle.…”

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confidence: 99%

Realization of optimal disentanglement by teleportation via separable channels

Ghosh¹,

Kar²,

Roy³

et al. 2001

Phys. Rev. A

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We discuss here the best disentanglement processes of states of two two-level systems which belong to (i) the universal set, (ii) the set in which the states of one party lie on a single great circle of the Bloch sphere, and (iii) the set in which the states of one party commute with each other, by teleporting the states of one party (on which the disentangling machine is acting) through three particular type of separable channels, each of which is a mixture of Bell states. In the general scenario, by teleporting one party's state of an arbitrary entangled state of two two-level parties through some mixture of Bell states, we have shown that this entangled state can be made separable by using a physically realizable mapṼ , acting on one party's states, if V (I) = I,Ṽ (σ j ) = λ j σ j , where λ j ≥ 0 (for j = 1, 2, 3), and λ 1 + λ 2 + λ 3 ≤ 1.

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Distinguishability of Bell States

Cited by 265 publications

References 11 publications

Hyperentanglement-assisted Bell-state analysis

Hyperentanglement-assisted Bell-state analysis

Nonlocality of orthogonal product-basis quantum states

Realization of optimal disentanglement by teleportation via separable channels

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