Click to go back to home
  • En
  • Fr
Get Connected
Click to go back to home
Get Connected

"Find People, Projects, etc."

Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
job
publications
equipment
media
research
projects
people
events
labs
Filter by Categories
Committee
Leadership
Science
Staff
  • Home
  • Research
  • Opportunities
  • Events
  • About
  • Get Connected
  • Institute for Quantum Computing

#trapped ions

Go Back Back

QuantumIon: an open-access quantum computing platform

Summary Trapped ions are one of the most advanced technologies for quantum computing, offering multi-qubit control in a universal quantum computing architecture and the ability to perform calculations with unprecedented precision. In this project we construct a shared trapped-ion quantum computing platform, QuantumIon, that will enable a broader and interdisciplinary scientific community to access an […]

September 9, 2019

PI: Crystal Senko,

Skip Tags barium benchmarking + 10 Additional

  • Share on Twitter
  • Share on Facebook
  • Share on LinkedIn
  • Go to QuantumIon: an open-access quantum computing platform

Implementing High-fidelity Quantum Gates in Multi-level Trapped Ions

Summary   The scalability of quantum processors is limited by current error rates for single-qubit gates. By encoding more than a single bit of information within a single ion, multi-level “qudits” offer a promising method of increasing the information density within a quantum processor, and therefore minimizing the number of gates and associated error rates. […]

July 30, 2018

PI: Crystal Senko

Skip Tags benchmarking computation + 7 Additional

  • Share on Twitter
  • Share on Facebook
  • Share on LinkedIn
  • Go to Implementing High-fidelity Quantum Gates in Multi-level Trapped Ions
Go to Engineering and Characterizing Programmable Interaction Graphs in a Trapped Ion Quantum Simulator
Engineering and Characterizing Programmable Interaction Graphs in a Trapped Ion Quantum Simulator
TQT Computation

Engineering and Characterizing Programmable Interaction Graphs in a Trapped Ion Quantum Simulator

Summary   Quantum simulators have the potential to bring unprecedented capabilities in areas such as the discovery of new materials and drugs. Engineering precise and programmable interaction graphs between qubits or spins forms the backbone of simulator applications. The trapped ion system is unique in that the interaction graph between qubits can be programmed, in […]

July 24, 2018

PI: Kazi Rajibul Islam

Skip Tags algorithms characterization + 6 Additional

  • Share on Twitter
  • Share on Facebook
  • Share on LinkedIn
  • Go to Engineering and Characterizing Programmable Interaction Graphs in a Trapped Ion Quantum Simulator

Connect with Us

Join us at the frontier of quantum technology development. Request a visit, explore opportunities, and stay informed.

Get Connected
TQT Logo
First Canada Logo
  • twitter icon
  • facebook icon
  • youtube icon
  • Home
  • Research
  • Opportunities
  • Events
  • About
  • Get Connected
  • Institute for Quantum Computing
TQT Logo
  • Home
  • Research
  • Opportunities
  • Events
  • About
  • Get Connected
  • Institute for Quantum Computing
  • twitter icon
  • facebook icon
  • youtube icon
First Canada Logo
TQT Logo
  • twitter icon
  • facebook icon
  • youtube icon
  • Research
  • Overview
  • Updates
  • Projects
  • Publications
  • Labs
  • Quantum Innovation Cycle
  • Opportunities
  • Overview
  • Quantum for Health Design Challenge
  • Quantum for Environment Design Challenge
  • Quantum Seed
  • Technology Development
  • Open Positions
  • Events
  • All Events
  • About
  • Overview
  • People
  • Media
  • Contact
First Canada Logo