Two Shaky Pillars of Quantum Computing ()
ABSTRACT
Superposition and entanglement are two theoretical pillars quantum computing rests upon. In the g-qubit theory quantum wave functions are identified by points on the surface of three-dimensional sphere S3. That gives different, more physically feasible explanation of what superposition and entanglement are. The core of quantum computing scheme should be in manipulation and transferring of wave functions on S3 as operators acting on observables and formulated in terms of geometrical algebra. In this way quantum computer will be a kind of analog computer keeping and processing information by sets of objects possessing infinite number of degrees of freedom, contrary to the two value bits or two-dimensional Hilbert space elements, qubits.
Share and Cite:
Soiguine, A. (2023) Two Shaky Pillars of Quantum Computing.
Journal of Applied Mathematics and Physics,
11, 448-456. doi:
10.4236/jamp.2023.112027.
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