Quantum Randomness - A Crucial Component of Quantum Error Correcting Codes and Circuits
Gokul Alex
Blockchain Architect working on Scalability, Security & Interoperability | Cryptography Researcher focusing on Hash Functions, Delay Functions, Lattice Systems, Time Locks, Threshold Signatures, & Zero Knowledge Proofs
Quantum Randomness and Quantum Recursion are at the crux of Quantum Turing Machines and Quantum Information Theory - Pioneers like Andrey Komogorov, Erwin Shrodinger, Paul Dirac, Hugh Everett etc. understood the finesse of this delicate dynamic dimension in the creative conversations in early 1960's when there was a considerable chaos and confusion around defining quantum randomness, quantum probability, and quantum information.
Whichever models we take, quantum mechanics modifies and manipulates every classical measures in finer frame of reference, as demonstrated by the following equation where you take the square root of probability to reach a symmetry in the space time quantum fabric interwoven in the threads of time. Every classical constant and boundary conditions and epistemic expressions of entropy are hovering around the finer threads of time in the quantum thermodynamic sense.
Every scalar dot products and vector cross products just produce interpolations of tensor threads of time to demonstrate different dimensions of quantum thermodynamic constants ranging from microscopic energy tunneling tensors to macroscopic levels of event horizon level quarternions hovering around cosmic singularity tensors ( Black Holes )
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