We show that the use of probabilistic noiseless amplification in entangled coherent state-based schemes for the test of quantum nonlocality provides substantial advantages. The threshold amplitude to falsify a Bell-CHSH nonlocality test, in fact, is significantly reduced when amplification is embedded into the test itself. Such a beneficial effect holds also in the presence of detection inefficiency. Our study helps in affirming noiseless amplification as a valuable tool for coherent information processing and the generation of strongly nonclassical states of bosonic systems. © 2013 American Physical Society.
Torlai G., McKeown G., Marek P., Filip R., Jeong H., Paternostro M., et al. (2013). Violation of Bell's inequalities with preamplified homodyne detection. PHYSICAL REVIEW A, 87(5) [10.1103/PhysRevA.87.052112].
Violation of Bell's inequalities with preamplified homodyne detection
Paternostro M.
Co-ultimo
Supervision
;
2013-05-10
Abstract
We show that the use of probabilistic noiseless amplification in entangled coherent state-based schemes for the test of quantum nonlocality provides substantial advantages. The threshold amplitude to falsify a Bell-CHSH nonlocality test, in fact, is significantly reduced when amplification is embedded into the test itself. Such a beneficial effect holds also in the presence of detection inefficiency. Our study helps in affirming noiseless amplification as a valuable tool for coherent information processing and the generation of strongly nonclassical states of bosonic systems. © 2013 American Physical Society.
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