2,191 research outputs found
Reversing the Weak Quantum Measurement for a Photonic Qubit
We demonstrate the conditional reversal of a weak (partial-collapse) quantum
measurement on a photonic qubit. The weak quantum measurement causes a
nonunitary transformation of a qubit which is subsequently reversed to the
original state after a successful reversing operation. Both the weak
measurement and the reversal operation are implemented linear optically. The
state recovery fidelity, determined by quantum process tomography, is shown to
be over 94% for partial-collapse strength up to 0.9. We also experimentally
study information gain due to the weak measurement and discuss the role of the
reversing operation as an information erasure
Single-Copy Certification of Two-Qubit Gates without Entanglement
A quantum state transformation can be generally approximated by single- and
two-qubit gates. This, however, does not hold with noisy intermediate-scale
quantum technologies due to the errors appearing in the gate operations, where
errors of two-qubit gates such as controlled-NOT and SWAP operations are
dominated. In this work, we present a cost efficient single-copy certification
for a realization of a two-qubit gate in the presence of depolarization noise,
where it is aimed to identify if the realization is noise-free, or not. It is
shown that entangled resources such as entangled states and a joint measurement
are not necessary for the purpose, i.e., a noise-free two-qubit gate is not
needed to certify an implementation of a two-qubit gate. A proof-of-principle
demonstration is presented with photonic qubits.Comment: 8 pages. arXiv admin note: text overlap with arXiv:1812.0208
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