Research
A list of all research projects that were supported by the QIP IRC is shown below. A short description of the work and contact details for the researcher(s) are provided on the linked pages.
Dr. Peter Rohde, who at the time was working with the theory group in Oxford, produced a review of the experimental work being carried out towards the goals of optical quantum information processing and fullerene-based quantum computation.
Summary of experimental work in 2008
List of projects
- QIP with trapped atoms
- Propagating quantum information in nanotubes
- Underpinning theory
- Distributed quantum computing with macroscopic heralding
- Measurement based QIP
- Spin Chain QIP
- Quantum Communication Schemes
- Carbon Nanomaterials for QIP
- Fundamentals of Measurement-Based Quantum Computation
- Quantum information processing with microcavities on atom chips
- Quantum computing in optical lattices
- Application of Quantum Information Theory
- Theory and Modelling of Atom Chips
- physical implementations for MBQC
- Engineering intra-molecular entanglement
- New techniques for transferring quantum information between photons
- Theoretical Studies of Electrically Detected Magnetic Resonance in Carbon Nanostructures
- Topics in the Theory of Entanglement
- Optical Quantum Communication
- Growth and Processing
- Quantum dots, single-photon sources and photonic band gap cavities
- QIP research on peapod structures
- Photon-exciton interactions in quantum dots
- Array Memories
- Spin Active Fullerene Dimer as a Two-Qubit system
- Arrays of quantum dots
- Computing using Light
- QIP algorithms
- Propagating entanglement
- Proving security
- Dots and cavities
- Using noise for QIP
- QIP using ions
- QIP with restricted control.
