Journal of Aeronautics & Aerospace Engineering
Open Access

Abstract

Quantum Computation and Universe.

Suresh Kumar S

It is argued in this paper that universal Quantum Error Correction (QEC) codes for cosmological computations are implemented for fault tolerant functionality with minimal error probabilities. Unlike discrete-variable systems, Continuous Variable (CV) systems possess an infinite dimensional Hilbert space. Encoding the quantum information in CV systems, therefore, provides a hardware efficient approach to QEC. Various bosonic codes have been experimentally demonstrated to suppress errors in CV systems. These can be extended to quantum vacuum superfluid condensate and hadronic quark gluon plasma liquid systems in nature in which we may implement QEC non-adaptively via engineered dissipation an approach called Autonomous QEC (AutoQEC). We can introduce an explicit AutoQEC scheme for the squeezed cat, SC, against loss errors by engineering a non-trivial dissipation. Electroweak fields and gravity fields would account for correcting errors and removing the entropy such that quantum information is not fragile to environment noise in cosmological computations at quantum and relativistic orders in nature.

Published Date: 2025-01-23;