Super-Heisenberg scaling in Hamiltonian parameter estimation in the long-range Kitaev chain
Jing Yang, Shengshi Pang, Adolfo del Campo, Andrew N. Jordan
Abstract
In quantum metrology, nonlinear many-body interactions can enhance the precision of Hamiltonian parameter estimation to surpass the Heisenberg scaling. Here, we consider the the estimation of the interaction strength in linear systems with long-range interactions and using the Kitaev chains as a case study, we establish a transition from the Heisenberg to super-Heisenberg scaling in the quantum Fisher information by varying the interaction range. We further show that quantum control can improve the prefactor of the quantum Fisher information. Our results explore the advantage of optimal quantum control and long-range interactions in many-body quantum metrology.
Topics & Concepts
Quantum metrologyHeisenberg limitScalingHamiltonian (control theory)QuantumFisher informationPhysicsStatistical physicsNonlinear systemHeisenberg modelQuantum mechanicsQuantum informationMathematicsQuantum networkMathematical optimizationStatisticsFerromagnetismGeometryQuantum many-body systemsTopological Materials and PhenomenaCold Atom Physics and Bose-Einstein Condensates