Accession Number:

ADA616686

Title:

Hybrid Circuit Quantum Electrodynamics: Coupling a Single Silicon Spin Qubit to a Photon

Descriptive Note:

Final rept. Jun 2012-May 2014

Corporate Author:

PRINCETON UNIV NJ DEPT OF PHYSICS

Personal Author(s):

• Petta, Jason R.

Report Date:

2015-01-01

Pagination or Media Count:

25.0

Abstract:

The purpose of this research program was to develop a device architecture that is capable of coherently coupling two silicon spin qubits via the electromagnetic field of superconducting resonator. Single Electron spins can be efficiently coupled using the exchange interaction, but the strength of exchange falls of very quickly as a function of the distance separating the two electron spins. Cavity based coupling schemes have recently emerged as a robust tool for coupling superconducting quantum bits. The main goal of this research program was to make the first steps toward combing elements of the superconducting and semiconductor qubit architectures.

Descriptors:

• *COUPLING(INTERACTION)
• *HYBRID CIRCUITS
• *QUANTUM COMPUTING
• *SUPERCONDUCTORS
• CAVITY RESONATORS
• COMPUTER ARCHITECTURE
• COMPUTERIZED SIMULATION
• ELECTROMAGNETIC FIELDS
• ELECTRON SPIN RESONANCE
• FABRICATION
• PHOTOLITHOGRAPHY
• PHOTONS
• QUANTUM DOTS
• QUANTUM ELECTRODYNAMICS
• SILICON ALLOYS
• SUBSTRATES
• TUNNELING(ELECTRONICS)

Subject Categories:

• Electrical and Electronic Equipment
• Nuclear Physics and Elementary Particle Physics
• Quantum Theory and Relativity
• Solid State Physics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE