New research 1 example

PROJECT OVERVIEW

We propose a superconducting circuit architecture suitable for digital-analog quantum computing (DAQC) based on an enhanced NISQ family of nearest-neighbor interactions. DAQC makes a smart use of digital steps (single qubit rotations) and analog blocks (parametrized multiqubit operations) to outperform digital quantum computing algorithms. Our design comprises a chain of superconducting charge qubits coupled by superconducting quantum interference devices (SQUIDs). Using magnetic flux control, we can activate/deactivate exchange interactions, double excitation/de-excitations, and others. As a paradigmatic example, we present an efficient simulation of an $ ell times h $ fermion lattice (with $ 2<ell leq h $), using only $ 2(2ell +1)^{2}+24 $ analog blocks. The proposed architecture design is feasible in current experimental setups for quantum computing with superconducting circuits, opening the door to useful quantum advantage with fewer resources.

DETAILS
  • Research Type Article
  • RESEARCH YEAR 2022
  • Journal Name EPJ Quantum Technology
  • Authors J. Yu, J. C. Retamal, M. Sanz, E. Solano, and F. Albarrán-Arriagada
  • URL https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.19.064086