In the 1+1D Majorana QFT the vacuum Bell-CHSH correlator reduces to a modular spectral weight that can be tuned to reach the Tsirelson limit.
hub Canonical reference
3 Ilya Bogdanov
Canonical reference. 88% of citing Pith papers cite this work as background.
hub tools
citation-role summary
citation-polarity summary
representative citing papers
Defines a resource theory of GPT-contextuality whose free operations are classical systems and univalent simulations, yielding monotones including classical excess (minimal embedding error into infinite classical systems) and parity-oblivious multiplexing success probability, with noncontextual GPTs
First demonstration of loophole-free steering nonlocality in a high-speed chip-fiber telecom system with time-bin entanglement and phase-encoding measurements.
Monolithically integrated InGaAs/GaAs quantum dot on silicon produces energy-time entangled photons under two-photon excitation, with two-photon interference visibilities up to 64% in short time windows.
Indistinguishable fermions generate correlations in quantum networks impossible for bosons or distinguishable particles without additional communication, establishing fermions as fundamentally more nonlocal.
The paper develops a descriptive framework in which scientific reward in physics is understood as transformations of the Polydoxon, the structured set of viable theories, with reward scaling by the transformation's scope, centrality, depth, and future leverage.
Adjacency Sampling reproduces all known Bell inequality classes in solved cases and generates over 129 million classes for the L_{3,3,3,3} scenario plus millions more for larger ones.
Absence of coherent superpositions in the coherent-state basis is a sufficient condition for Wigner function positivity, necessary and sufficient for cat states and limiting cases of higher-order cat states.
Sunlight produces polarization-entangled photons through SPDC, achieving concurrence 0.905, fidelity 0.939, and Bell violation S=2.54 exceeding the classical limit.
Krenn-Gu conjecture verified for low-connectivity and cubic GHZ graphs; minimal counterexamples must be 4-connected.
A sum-of-squares decomposition method systematically derives Tsirelson bounds for high-dimensional quantum systems and recovers known results for qubits and qudits while finding novel bounds.
A monolithic bow-tie cavity with finesse 5.7e4 is realized for homogeneous coupling to Sr atoms at 689 nm, projected to enable up to 28 dB spin squeezing for quantum-enhanced interferometry.
Reports experimental generation of remote Bell entanglement between two giant atoms with fidelity 0.89 using driven-dissipative stabilization and in-situ frequency tuning.
Three authors each propose a resolution to Bell's theorem by dropping counterfactual definiteness, with one linking CHSH violation strength to spatial dimensions.
Depolarizing channels suppress the correlations needed to witness both state-dependent and state-independent contextuality in sequential KCBS and Peres-Mermin implementations, leading to classicalization.
Entanglement in ttbar production at lepton colliders is typically reduced by scalar mediators but shows sizable deviations in U(1)B-L and Randall-Sundrum models, positioning quantum-information observables as probes for new neutral interactions.
Projective strategies enjoy key properties in the usual CHSH game but lose them in its dynamic variant when viewed through team-theoretic solution concepts.
Fractional time order modulates coherence, entanglement, and nonlocality in dimeric PBI molecules via dipole-dipole interactions.
Vertex operators of a chiral boson realize dichotomic bounded Hermitian operators that saturate the Tsirelson bound of the Bell-CHSH inequality in the vacuum.
Bell-type correlations are reinterpreted as sequential single-spin auto-correlations under counterfactual equivalence, explaining non-locality via state-altering measurements on undefined quantities.
Quantum probability is the fixed-spacetime projection of contextual spacetime formation under finite-state requirements.
Schnabel's resolution of the EPR paradox via a flaw in the 'EPR implication' and alpha decay example does not address the core structure involving incompatible observables and locality-based reasoning.
Bell correlations admit a strictly local explanation in the Heisenberg picture of unitary quantum mechanics.
Nelson's stochastic mechanics supplies a configuration-space diffusion picture where the Born rule is built-in, collapse is not an extra axiom, and nonlocality is softened, while proposing a distance scale to test limits of Bell correlations.
citing papers explorer
-
Resource-theoretic hierarchy of contextuality for general probabilistic theories
Defines a resource theory of GPT-contextuality whose free operations are classical systems and univalent simulations, yielding monotones including classical excess (minimal embedding error into infinite classical systems) and parity-oblivious multiplexing success probability, with noncontextual GPTs
-
Steering nonlocality in high-speed telecommunication system without detection loophole
First demonstration of loophole-free steering nonlocality in a high-speed chip-fiber telecom system with time-bin entanglement and phase-encoding measurements.
-
Krenn-Gu conjecture for sparse graphs
Krenn-Gu conjecture verified for low-connectivity and cubic GHZ graphs; minimal counterexamples must be 4-connected.
-
Simulating Bell inequalities with Qibo
Educational modules and Qibo implementations for simulating Bell inequality violations to teach entanglement, hidden variables, and non-locality.