Superconducting qubit circuit emulation of a vector spin-1/2

Superconducting qubit circuit emulation of a vector spin-1/2

Blog Article

We propose a superconducting qubit that fully emulates a quantum spin-1/2, with here an effective vector dipole moment whose three components obey the commutation relations of an angular momentum in the computational subspace.Each of these components of the dipole moment also couples approximately linearly to an independently-controllable external bias, emulating the linear Zeeman effect due to a fictitious, vector magnetic field over a broad range of effective total fields around zero.This capability, combined with established techniques for qubit coupling, should enable for the first time the direct, controllable hardware emulation of nearly arbitrary, interacting quantum spin-1/2 systems, including the canonical Heisenberg model.Furthermore, it constitutes a crucial step both towards realizing the full here potential of quantum annealing, as well as exploring important quantum information processing capabilities that have so far been inaccessible to available hardware, such as quantum error suppression, Hamiltonian and holonomic quantum computing, and adiabatic quantum chemistry.