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arxiv 2111.06186 v2 pith:2SA2KA7X submitted 2021-11-11 quant-ph

Steering-based randomness certification with squeezed states and homodyne measurements

classification quant-ph
keywords statesmeasurementsquantumrandomnesscertificationdevicehomodynesqueezed
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a scheme for quantum randomness certification based on quantum steering. The protocol is one-sided device independent, providing high security, but requires only states and measurements that are simple to realise on quantum optics platforms - entangled squeezed vacuum states and homodyne detection. This ease of implementation is demonstrated by certifying randomness in existing experimental data and implies that giga-hertz random bit rates should be attainable with current technology. Furthermore, the steering-based setting represents the closest to full device independence that can be achieved using purely Gaussian states and measurements.

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