Optimally Designed Quantum Transport across Disordered Networks (original) (raw)

A novel mechanism for efficient quantum transport through disordered 3D networks is proposed, highlighting the interplay between disorder, centro-symmetry, and a dominant doublet spectral structure. The work suggests that transport efficiency can be optimized by tuning coarse-grained quantities, with applications in both biological systems (like photosynthesis) and quantum information technologies. This framework seeks to redefine the conditions under which quantum mechanics can be exploited in complex systems, ultimately enhancing transport efficiency in disordered environments.