A measurable physical theory of hyper-correlations beyond quantum mechanics
Physica Scripta IOP Publishing 96:1 (2020) 015006
Abstract:
whose non-local character exceeds the bounds allowed by quantum mechanics. Motivated by our observation that an extension of the Schroedinger equation with non-linear terms is directly linked to a relaxation of Born's rule, an axiom of quantum mechanics, we derive a physical theory that accounts for such hyper-correlated states and modifies Born's rule. We model correlated particles with a generalized probability theory whose dynamics are described with a non-linear version of Schr\"odinger's equation and demonstrate how that deviates from the standard formulation of quantum mechanics in experimental probability-prediction. We show also that the violation of the Clauser-Horn-Shimony-Holt inequality, the amount of non-locality, is proportional to the degree of non-linearity, which can be experimentally tested.A measurable physical theory of hyper-correlations beyond quantum mechanics
Physica Scripta: an international journal for experimental and theoretical physics IOP Publishing (2020)
Witnessing nonclassicality beyond quantum theory
Physical Review D American Physical Society (APS) 102:8 (2020) 086012
Highly efficient photoluminescence and lasing from hydroxide coated fully inorganic perovskite micro/nano-rods
Advanced Optical Materials Wiley 8:23 (2020) 2001235
Abstract:
The effect of surface passivation on the photoluminescence (PL) emitted by CsPbBr3 micro/nano‐rods coated with Pb(OH)2 is investigated, where a high quantum yield and excellent stability for the emission are found. The CsPbBr3/Pb(OH)2 rods generally present a peak that is blue shifted compared to that seen in rods without a hydroxide cladding at low temperatures. By increasing the temperature, it is further shown that the passivated surface states are very robust against thermal effects and that the PL peak intensity only drops by a factor of 1.5. Localized stimulated emission at defect states found within larger rods is also demonstrated, clarified by spatially resolved confocal PL mapping along the length of the rods. The diffusion parameter of the carrier density distribution is measured to be 5.70 µm for the sky‐blue emission, whereas for the defect lasing site it is found to be smaller than this excitation spot size.Machine learning meets quantum foundations: A brief survey
AVS Quantum Science American Vacuum Society 2:3 (2020) 034101