Teleportation of electromagnetic field states: from atoms to chips
Quantum information with continuous variables of atoms and light
Quantum-information processing under the auspices of the scattering-matrix formalism
Full text | |
Author(s): |
Ribeiro, G. A. P.
;
Rigolin, Gustavo
Total Authors: 2
|
Document type: | Journal article |
Source: | PHYSICAL REVIEW A; v. 111, n. 1, p. 16-pg., 2025-01-03. |
Abstract | |
We show that the teleportation protocol can be efficiently used to detect quantum critical points using finitetemperature data even if all resources needed for its implementation lie within the system under investigation. Contrary to a previous proposal, there is no need to use an external qubit as the input state to be teleported to one of the qubits within the system. Here we use a pair of nearest-neighbor spins from an infinite spin- 12 chain in equilibrium with a heat bath as the entangled resource of the quantum-teleportation protocol and a third adjacent qubit within the chain itself as the input state to be teleported. For several spin-chain models subjected to an external magnetic field, we show that the efficiency of the teleportation protocol is severely affected as we cross the quantum critical points associated with those spin chains. This abrupt change in efficiency gives us a clear indication of a quantum phase transition. (AU) | |
FAPESP's process: | 23/03947-0 - Physical properties of integrable quantum spin chain and integrable classical models |
Grantee: | Giuliano Augustus Pavan Ribeiro |
Support Opportunities: | Regular Research Grants |