2010
DOI: 10.1103/physrevlett.105.100507
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Four-Qubit Entanglement Classification from String Theory

Abstract: We invoke the black hole/qubit correspondence to derive the classification of four-qubit entanglement. The U-duality orbits resulting from timelike reduction of string theory from D = 4 to D = 3 yield 31 entanglement families, which reduce to nine up to permutation of the four qubits.PACS numbers: 11.25.Mj, 03.65.Ud, 04.70.Dy Keywords: black hole, U-duality, qubit, entanglement Recent work has established some intriguing correspondences between two very different areas of theoretical physics: the entanglement … Show more

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Cited by 119 publications
(168 citation statements)
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“…It follows that there are 31 nilpotent orbits for four qubits under SLOCC [22]. For each nilpotent orbit there is precisely one family of SLOCC orbits since each family contains one nilpotent orbit on setting all invariants to zero.…”
Section: Four-qubit Entanglement From String Theorymentioning
confidence: 99%
See 1 more Smart Citation
“…It follows that there are 31 nilpotent orbits for four qubits under SLOCC [22]. For each nilpotent orbit there is precisely one family of SLOCC orbits since each family contains one nilpotent orbit on setting all invariants to zero.…”
Section: Four-qubit Entanglement From String Theorymentioning
confidence: 99%
“…Another useful aspect of this correspondence is that the classification problem of certain types of black hole can be mapped to the classification problem of entanglement types of qubit systems [2,3,[21][22][23] .…”
Section: Introductionmentioning
confidence: 99%
“…In addition, a good entanglement measure can not only distinguish the given entangled state from others (in usual, the separable states), but also should be an entanglement monotone which is not increased under stochastic local operations and classical communications(SLOCC) [10]. Therefore, although many authors have classified the multipartite quantum states into various inequivalent classes, they can not provide a good and direct entanglement measure for each class of quantum states [11][12][13][14][15][16][17][18][19][20]. In particular, in order to measure the * quaninformation@sina.com; ycs@dlut.edu.cn GHZ type entanglement of multipartite quantum states, some authors defined an n-tangle for multipartite quantum pure states to generalize the 3-tangle [20].…”
Section: Introductionmentioning
confidence: 99%
“…Important achievements have been reached in this context, and some others are underway; just to name a few, the EBH entropy in the so-called N = 2 supergravity STU model [38,39] was associated with tripartite entanglement measurement and classification in QIT [26,40], and this was further extended to the hitherto unsolved issue of the classification of four qubits entanglement [41]. Moreover, the Hilbert space for qubits was traced back to wrapped branes inside the cohomology of the extra dimensions [32,42], and exceptional groups E 7 and E 6 were respectively related to the tripartite entanglement of seven qubits [43] and to the bipartite entanglement of three qutrits [44].…”
Section: Introductionmentioning
confidence: 99%