We're continuing our countdown of the top 5 biggest stories of the year. In this edition, Ian Durham chooses a few more runners-up from the worlds of mathematics, astrophysics and quantum computing, and before revealing number 5.

Hi ,very good one too this youtube and I liked a lot working my theory and these spheres like foundamental objects with a tool that I have invented the spherical topological geometrical algebras.
These Spherical cubes for the codes are relevant for the concept of quantum computing when we consider the qubits in a kind of 3D configuration, the superposition states become relevant for the complexity. It is mainly for the efficiency of computations and the arrangements considering also the errors minimizing the interferences and so that facilitates the quantum algorythms, These spherical codes permits interesting optimisations. It is like if we computed the best spatial configurations and distributions of these qubits on the spheres , for the errors it is more than relevant. I belive that these spheres have a lot to give for the improve,ments of our technologies and physics correlated also with the quantum information theory and the applications in quantum computing. The surfaces of these spheres have many mathematical possibilities and principles wich can be correlated ,That will permit optimisations of performances at my humble opinion, congrats for this youtube.

    Zeeya Merali Thanks , I have shared my theory of spherisation this optimisation of the universe with quantum and cosmological spheres many years ago now on FQXi , at the begining it was a general idea not developped, I have improved a lot now and I try to be concrete, I have not still published . I have learnt a lot due to FQXi and on arxiv, Thanks so to FQXi for the work that you make, it is important for the sharing of physics , happy new year to all ,friendly

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