2015
DOI: 10.1103/physreva.92.032323
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Compressed simulation of thermal and excited states of the one-dimensionalXYmodel

Abstract: Since several years the preparation and manipulation of a small number of quantum systems in a controlled and coherent way is feasible in many experiments. In fact, these experiments are nowadays commonly used for quantum simulation and quantum computation. As recently shown, such a system can, however, also be utilized to simulate specific behaviors of exponentially larger systems. That is, certain quantum computations can be performed by an exponentially smaller quantum computer. This compressed quantum comp… Show more

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Cited by 9 publications
(11 citation statements)
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“…From the point of view of quantum simulations, it is also meaningful to consider the compression of tensor network states [42], [43] which provide a variational ansatz for a large number of quantum manybody systems. The extension of quantum compression to this scenario is appealing as a technique to reduce the number of qubits needed to simulate systems of distinguishable quantum particles, in the same spirit of the compressed simulations introduced by Kraus [44] and coauthors [45], [46]. In the long term, the informationtheoretic study of manybody quantum systems may provide a new approach to the simulation of complex systems that are not efficiently simulatable on classical computers.…”
Section: Discussionmentioning
confidence: 99%
“…From the point of view of quantum simulations, it is also meaningful to consider the compression of tensor network states [42], [43] which provide a variational ansatz for a large number of quantum manybody systems. The extension of quantum compression to this scenario is appealing as a technique to reduce the number of qubits needed to simulate systems of distinguishable quantum particles, in the same spirit of the compressed simulations introduced by Kraus [44] and coauthors [45], [46]. In the long term, the informationtheoretic study of manybody quantum systems may provide a new approach to the simulation of complex systems that are not efficiently simulatable on classical computers.…”
Section: Discussionmentioning
confidence: 99%
“…We have outlined, how a program can look like to construct a proper drive and reveal the new scaling due to irrelevant couplings for the transverse XY model. Besides its analytical appeal, the transverse XY model is in reach of experimental investigations like trapped ion experiments as in [48,49], where the transverse Ising model was already analyzed, or compressed quantum simulations [85][86][87]. Driving multiple couplings should be possible in the very same framework.…”
Section: Discussionmentioning
confidence: 99%
“…up to the error aforementioned. Another method to prepare the ground state would be to use the exact diagonalization presented before (see also [12,27]). As this diagonalization is achieved via matchgates, the ground state can be generated by applying the corresponding unitary to the initial state |0 .…”
Section: Ising Hamiltonian and Matchgatesmentioning
confidence: 99%