Geometric phase gate for entangling two Bose-Einstein condensates

Hussain, Muhammad Iqbal; Ilo-Okeke, Ebubechukwu O.; Byrnes, Tim

doi:10.1103/physreva.89.053607

Cited by 26 publications

(32 citation statements)

References 53 publications

(77 reference statements)

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“…This formulation could be generalized to other systems, such as quantum dots placed in a microcavity [16]. Another application is to atomic BEC systems, where an ac Stark shift is readily realized via coupling of cavities to optical transitions of atoms [36].…”

Section: Discussionmentioning

confidence: 99%

Geometric phase gate based on the ac Stark shift

Hussain

Ilo-Okeke

Byrnes

2015

Quantum Inf Process

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We present an alternate derivation of the geometric phase gate based on the ac Stark shift for two qubits coupled to a shared cavity mode. Our derivation differs from the standard one in that the qubit-light coupling occurs purely as an ac Stark shift, rather than a state-dependent force. We derive expressions for the geometric phases induced on the qubit states arising from the displacement of coherent light. Simple analytic expressions are obtained for sinusodial driving of the cavity field.

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Section: Discussionmentioning

confidence: 99%

Geometric phase gate based on the ac Stark shift

Hussain

Ilo-Okeke

Byrnes

2015

Quantum Inf Process

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“…Comparing this to (38), we observe that the difference is that the second BEC's labels must be changed to k → N − k. This can be achieved using the transformation e iS z π/2 |k (x)…”

Section: Two-axis Two-spin Epr Statementioning

confidence: 96%

“…[33,34] where it was found that a complex structure of entanglement is present, with a time dependence showing fractal characteristics. Methods to generate this state have been examined in numerous works [33][34][35][36][37][38][39]. Procedures to generate other types of entangled states have also been studied [40,41].…”

Section: Introductionmentioning

confidence: 99%

Two-axis two-spin squeezed states

Kitzinger

Chaudhary

Kondappan

et al. 2020

Phys. Rev. Research

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The states generated by the two-spin generalization of the two-axis countertwisting Hamiltonian are examined. We analyze the behavior at both short and long timescales, by calculating various quantities such as squeezing, spin expectation values, probability distributions, entanglement, Wigner functions, and Bell correlations. In the limit of large spin ensembles and short interaction times, the state can be described by a two-mode squeezed vacuum state; for qubits, Bell state entanglement is produced. We find that the Hamiltonian approximately produces two types of spin Einstein-Podolsky-Rosen (EPR) states, and the time evolution produces aperiodic oscillations between them. In a similar way to the basis invariance of Bell states and two-mode squeezed vacuum states, the Fock state correlations of spin EPR states are basis invariant. We find that it is possible to violate a Bell inequality with such states, although the violation diminishes with increasing ensemble size. Effective methods to detect entanglement are also proposed, and formulas for the optimal times to enhance various properties are calculated.

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“…Several proposals for such an interaction exist, including photon mediated cavity based methods [27,28,30] and interactions with state-dependent forces [45]. The type of entanglement that is produced by such an interaction has an exotic structure with fractal properties (the "devil's crevasse") [34,46].…”

Section: Example Applicationsmentioning

confidence: 99%

“…In particular, the ability of realizing BECs on atom chips allows for the possibility of excellent coherent control [25], and performing tasks such as spin squeezing [26]. This allows for a naturally scalable architecture where multiple BECs could be produced on the same chip, allowing for the possibility of entanglement between BECs [27][28][29][30]. While entanglement between two BEC has not been realized to date, entanglement between a BEC and an atom has been demonstrated [31].…”

Section: Introductionmentioning

confidence: 99%

Correlation-based entanglement criterion in bipartite multiboson systems

et al. 2015

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We describe a criterion for the detection of entanglement between two multi-boson systems. The criterion is based on calculating correlations of Gell-Mann matrices with a fixed boson number on each subsystem. This applies naturally to systems such as two entangled spinor Bose-Einstein condensates. We apply our criterion to several experimentally motivated examples, such as an S z S z entangled BECs, ac Stark shift induced two-mode squeezed BECs, and photons under parametric down conversion. We find that entanglement can be detected for all parameter regions for the most general criterion. Alternative criteria based on a similar formalism are also discussed together with their merits.

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Geometric phase gate for entangling two Bose-Einstein condensates

Cited by 26 publications

References 53 publications

Geometric phase gate based on the ac Stark shift

Geometric phase gate based on the ac Stark shift

Two-axis two-spin squeezed states

Correlation-based entanglement criterion in bipartite multiboson systems

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