Entanglement and quantum phase transition in topological insulators

Abstract: Presence of entangled states is explicitly shown in a topological insulator (TI) [Formula: see text]. The surface and bulk state are found to have different structures of entanglement. The surface states live as maximally entangled states in a four-dimensional subspace of total Hilbert space (spin, orbital, space). However, bulk states are entangled in the whole Hilbert space. Bulk states are found to be entangled maximally by controlled injection of electrons with momentum only along the [Formula: see text]-d… Show more

“…In fact, recently, the entanglement entropy has been developed as a way to characterize topological phases based on certain bulk properties of just the ground-state wave function, specifically, the properties of its entanglement spectrum 8 . For example, the 3D TI Bi Te can host different structures of entanglement in the bulk and the surface: the surface states lives as maximally entangled states, while the bulk states do not 9 .…”

Topological signatures in the entanglement of a topological insulator-quantum dot hybrid

“…In fact, recently, the entanglement entropy has been developed as a way to characterize topological phases based on certain bulk properties of just the ground-state wave function, specifically, the properties of its entanglement spectrum 8 . For example, the 3D TI Bi Te can host different structures of entanglement in the bulk and the surface: the surface states lives as maximally entangled states, while the bulk states do not 9 .…”

Topological signatures in the entanglement of a topological insulator-quantum dot hybrid