Quantum network node and protocols with multiple qubit species

Assignee

• UNIVERSITY OF MARYLAND, COLLEGE PARK · US

Inventors

• Christopher Monroe · Ellicott City, US
• Martin Lichtman · Philadelphia, US
• Ismail Volkan INLEK · Cary, US
• Clayton Crocker · Hyattsville, US
• Ksenia Sosnova · Silver Spring, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG06N10/70
• WIPO fieldComputer technology
• WIPO sectorElectrical engineering

Abstract

The disclosure describes aspects of using multiple species in trapped-ion nodes for quantum networking. In an aspect, a quantum networking node is described that includes multiple memory qubits, each memory qubit being based on a 171Yb+ atomic ion, and one or more communication qubits, each communication qubit being based on a 138Ba+ atomic ion. The memory and communication qubits are part of a lattice in an atomic ion trap. In another aspect, a quantum computing system having a modular optical architecture is described that includes multiple quantum networking nodes, each quantum networking node including multiple memory qubits (e.g., based on a 171Yb+ atomic ion) and one or more communication qubits (e.g., based on a 138Ba+ atomic ion). The memory and communication qubits are part of a lattice in an atomic ion trap. The system further includes a photonic entangler coupled to each of the multiple quantum networking nodes.