Topological fracton quantum phase transitions by tuning exact tensor network states

Abstract: Gapped fracton phases of matter generalize the concept of topological order and broaden our fundamental understanding of entanglement in quantum many-body systems. However, their analytical or numerical description beyond exactly solvable models remains a formidable challenge. Here we employ an exact 3D quantum tensor-network approach that allows us to study a Z N generalization of the prototypical X cube fracton model and its quantum phase transitions between distinct topological states via fully tractable wa… Show more