Add to ORKGBell nonclassicality of a single photon superposition in two modes, often referred to as `nonlocality of a single photon', is one of the most striking nonclassical phenomena discussed in the context of foundations of quantum physics. Here we show how to robustly violate local realism within the weak-field homodyne measurement scheme for \textit{any} superposition of one photon with vacuum. Our modification of the previously proposed setups involves tunable beamsplitters at the measurement stations, and the local oscillator fields significantly varying between the settings, optimally being {\it on} or {\it off}. As photon number resolving measurements are now feasible, we advocate for the use of the Clauser-Horne Bell inequalities for detect...
We identify what ideal correlated photon number states are to required to maximize the discrepancy b...
We propose a method of resolving a spatially coherent signal, which contains on average just a singl...
In the past two decades, the union of quantum mechanics and information science has led to significa...
Non-existence of a local hidden variables (LHV) model for a phenomenon benchmarks its use in device-...
Entanglement potentials are popular measures of the nonclassicality of single-mode optical fields. T...
The question of testing the nonlocality of a single photon has raised much debate over the last year...
We identify what ideal correlated photon number states are required to maximize the discrepancy betw...
Abstract. Quantum nonlocality is typically assigned to systems of two or more well separated particl...
We comment on the purported violation of local realism, by a single photon induced correlations betw...
A foundation of quantum mechanics is that quantum objects can exhibit both particle-like and wave-li...
We study the nonlocal nature of a temporally-delocalized single photon by performing the first tomog...
Abstract Certification of quantum nonlocality plays a central role in practical applications like de...
Optical quantum-nondemolition devices can provide essential tools for quantum information processing...
It is shown that the maximal phase sensitivity of a two-path interferometer with high-intensity cohe...
Motivated by very recent experiments, we consider a scenario "`a la Bell" in which two protagonists ...
We identify what ideal correlated photon number states are to required to maximize the discrepancy b...
We propose a method of resolving a spatially coherent signal, which contains on average just a singl...
In the past two decades, the union of quantum mechanics and information science has led to significa...
Non-existence of a local hidden variables (LHV) model for a phenomenon benchmarks its use in device-...
Entanglement potentials are popular measures of the nonclassicality of single-mode optical fields. T...
The question of testing the nonlocality of a single photon has raised much debate over the last year...
We identify what ideal correlated photon number states are required to maximize the discrepancy betw...
Abstract. Quantum nonlocality is typically assigned to systems of two or more well separated particl...
We comment on the purported violation of local realism, by a single photon induced correlations betw...
A foundation of quantum mechanics is that quantum objects can exhibit both particle-like and wave-li...
We study the nonlocal nature of a temporally-delocalized single photon by performing the first tomog...
Abstract Certification of quantum nonlocality plays a central role in practical applications like de...
Optical quantum-nondemolition devices can provide essential tools for quantum information processing...
It is shown that the maximal phase sensitivity of a two-path interferometer with high-intensity cohe...
Motivated by very recent experiments, we consider a scenario "`a la Bell" in which two protagonists ...
We identify what ideal correlated photon number states are to required to maximize the discrepancy b...
We propose a method of resolving a spatially coherent signal, which contains on average just a singl...
In the past two decades, the union of quantum mechanics and information science has led to significa...