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Literature DB >> 19113317

Reversal of the weak measurement of a quantum state in a superconducting phase qubit.

Nadav Katz¹, Matthew Neeley, M Ansmann, Radoslaw C Bialczak, M Hofheinz, Erik Lucero, A O'Connell, H Wang, A N Cleland, John M Martinis, Alexander N Korotkov.

Abstract

We demonstrate in a superconducting qubit the conditional recovery (uncollapsing) of a quantum state after a partial-collapse measurement. A weak measurement extracts information and results in a nonunitary transformation of the qubit state. However, by adding a rotation and a second partial measurement with the same strength, we erase the extracted information, canceling the effect of both measurements. The fidelity of the state recovery is measured using quantum process tomography and found to be above 70% for partial-collapse strength less than 0.6.

Year: 2008 PMID： 19113317 DOI： 10.1103/PhysRevLett.101.200401

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

Reversal of the weak measurement of a quantum state in a superconducting phase qubit.

1. Quantum physics: Watching the wavefunction collapse.

2. Observing single quantum trajectories of a superconducting quantum bit.

3. Effect of weak measurement on entanglement distribution over noisy channels.

4. Protecting quantum Fisher information of N-qubit GHZ state by weak measurement with flips against dissipation.

5. Enhanced Superdense Coding over Correlated Amplitude Damping Channel.