What question did this study set out to answer?

This work aims to develop and analyze anisotropic preferred reference frames for quantum information systems.

January 25, 2026Open Access

Anisotropic Preferred Reference Frames for Relativistic Quantum Information Systems

Puntos clave

This work aims to develop and analyze anisotropic preferred reference frames for quantum information systems.
Introduced two novel spacetimes as anisotropic reference frames.
Examined the algebraic structure of spin matrices to derive the geometry.
Analyzed Lorentz factors and symmetry group structure in relativistic contexts.
Demonstrated that anisotropic geometry arises from the algebraic properties of spin matrices.
Provided analytical insights into the symmetry structures relevant to quantum information theory.

Resumen

Two novel spacetimes are introduced in this work as anisotropic preferred reference frames tailored for applications in relativistic quantum information systems. The resulting anisotropic geometry arises intrinsically from the underlying algebraic structure of spin matrices rather than being imposed through external prescriptions, background fields, or perturbative approximations. The associated Lorentz factors, symmetry group structure and metric-preserving transformations are systematically analyzed within the context of relativistic quantum information theory.

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