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Quantum Algorithms
A universal scheme to self-test any quantum state or measurement
arXiv
Authors: Shubhayan Sarkar, Alexandre C. Orthey,, Remigiusz Augusiak
Year
2023
Paper ID
52736
Status
Preprint
Abstract Read
~2 min
Abstract Words
173
Citations
N/A
Abstract
The emergence of quantum devices has raised a significant issue: how to certify the quantum properties of a device without placing trust in it. To characterise quantum states and measurements in a device-independent way, up to some degree of freedom, we can make use of a technique known as self-testing. While schemes have been proposed to self-test all pure multipartite entangled states (up to complex conjugation) and real local projective measurements, little has been done to certify mixed entangled states, composite or non-projective measurements. By employing the framework of quantum networks, we propose a scheme for self-testing (up to complex conjugation) arbitrary extremal measurements, including the projective ones, but also, in an indirect way, any quantum state, including the mixed ones and any quantum measurement, including non-extremal ones. The quantum network considered in this work is the simple star network, which is implementable using current technologies. For our purposes, we also construct a scheme that can be used to self-test the two-dimensional tomographically complete set of measurements with an arbitrary number of parties.
Why This Paper Matters
- It adds a 2023 reference point for readers tracking recent quantum research.
- The emergence of quantum devices has raised a significant issue: how to certify the quantum properties of a device without placing trust in it.
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