U. Seyfarth, L. L. Sanchez-Soto, G. Leuchs
Published 2014-12-14Version 1
The number of measurements necessary to perform the quantum state reconstruction of a system of qubits grows exponentially with the number of constituents, creating a major obstacle for the design of scalable tomographic schemes. We work out a simple and efficient method based on cyclic generation of mutually unbiased bases. The basic generator requires only Hadamard and controlled-phase gates, which are available in most practical realizations of these systems. We show how complete sets of mutually unbiased bases with different entanglement structures can be realized for three and four qubits. We also analyze the quantum circuits implementing the various entanglement classes.
Comments: 5 pages, 2 color figures. Comments welcome!
Construction of mutually unbiased bases with cyclic symmetry for qubit systems
Sizing up entanglement in mutually unbiased bases with Fisher information
Improving Quantum State Estimation with Mutually Unbiased Bases
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