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Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature of arbitrary rational-order OAM has… (More)
We experimentally investigate two-photon N00N state coherent absorption in a multilayer graphene film and show that coherent loss can be used as a resource for quantum operations.
Within a parametric down-conversion process we compare information capacity associated with the entangled spatial modes as measured in the Hermitte-Gaussian and Lagueere-Gaussian modal basis in an… (More)
Thomas Roger, Sara Restuccia, Ashley Lyons, Daniel Giovannini, Jacquiline Romero, John Jeffers, Miles Padgett, and Daniele Faccio School of Engineering and Physical Sciences, Heriot-Watt University,… (More)
We investigated the generation of dynamo waves in the solar convection zone through a numerical simulation. We integrated the axisymmetric α–Ω kinematic dynamo equations in a spherical geometry,… (More)
Although quantum physics is well understood in inertial reference frames (flat spacetime), a current challenge is the search for experimental evidence of nontrivial or unexpected behavior of quantum… (More)