Publications
133 results found
Herrera-Marti DA, Fowler AG, Jennings D, et al., 2010, Photonic implementation for the topological cluster-state quantum computer, Vol: 82
JENNINGS D, RUDOLPH T, 2010, Entanglement and the thermodynamic arrow of time, Vol: 81
Kennedy R, Horstmeyer L, Dragan A, et al., 2010, Qubit initialization and readout with finite coherent amplitudes in cavity QED, Vol: 82
LIANG Y, HARRIGAN N, BARTLETT S, et al., 2010, Nonclassical Correlations from Randomly Chosen Local Measurements, Vol: 104
Ahmadi M, Jennings D, Rudolph T, 2010, Dynamics of a quantum reference frame undergoing selective measurements and coherent interactions, Vol: 82
JENNINGS D, RUDOLPH T, 2010, Comment on "Quantum Solution to the Arrow-of-Time Dilemma", Vol: 104
BARRETT S, BARTLETT S, DOHERTY A, et al., 2009, Transitions in the computational power of thermal states for measurement-based quantum computation, Vol: 80
BARTLETT S, RUDOLPH T, SPEKKENS R, et al., 2009, Quantum communication using a bounded-size quantum reference frame, Vol: 11
BIGGERSTAFF D, KALTENBAEK R, HAMEL D, et al., 2009, Cluster-State Quantum Computing Enhanced by High-Fidelity Generalized Measurements, Vol: 103
COSTA F, HARRIGAN N, RUDOLPH T, et al., 2009, Entanglement detection with bounded reference frames, Vol: 11
RUDOLPH T, 2009, Simple encoding of a quantum circuit amplitude as a matrix permanent, Vol: 80
JOO J, RUDOLPH T, SANDERS B, 2009, A heralded two-qutrit entangled state, Vol: 42
LAING A, RUDOLPH T, O'BRIEN J, 2009, Experimental Quantum Process Discrimination, Vol: 102
LINDNER N, RUDOLPH T, 2009, Proposal for Pulsed On-Demand Sources of Photonic Cluster State Strings, Vol: 103
JENNINGS D, DRAGAN A, BARRETT S, et al., 2009, Quantum computation via measurements on the low-temperature state of a many-body system, Vol: 80
Eisert J, Tyc T, Rudolph T, et al., 2008, Gaussian quantum marginal problem, COMMUNICATIONS IN MATHEMATICAL PHYSICS, Vol: 280, Pages: 263-280, ISSN: 0010-3616
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VARNAVA M, BROWNE D, RUDOLPH T, 2008, How good must single photon sources and detectors be for efficient linear optical quantum computation?, Vol: 1
ZHANG Q, BAO X, LU C, et al., 2008, Demonstration of a scheme for the generation of "event-ready" entangled photon pairs from a single-photon source, Vol: 77
JOO J, KNIGHT P, O'BRIEN J, et al., 2007, One-way quantum computation with four-dimensional photonic qudits, Physical Review A, Vol: 76, ISSN: 1050-2947
We consider the possibility of performing linear optical quantum computations making use of extra photonic degrees of freedom. In particular, we focus on the case where we use photons as quadbits, four-dimensional photonic qudits. The basic 2-quadbit cluster state is a hyperentangled state across polarization and two spatial mode degrees of freedom. We examine the nondeterministic methods whereby such states can be created from single photons and/or Bell pairs and then give some mechanisms for performing higher-dimensional fusion gates.
AUDENAERT K, GODSIL C, ROYLE G, et al., 2007, Symmetric squares of graphs, Vol: 97, Pages: 74-90
BARTLETT S, RUDOLPH T, SANDERS B, et al., 2007, Degradation of a quantum directional reference frame as a random walk, Vol: 54, Pages: 2211-2221
BARTLETT S, RUDOLPH T, SPEKKENS R, 2007, Reference frames, superselection rules, and quantum information, Vol: 79, Pages: 555-609
KIELING K, RUDOLPH T, EISERT J, 2007, Percolation, renormalization, and quantum computing with nondeterministic gates, Vol: 99
VARNAVA M, BROWNE D, RUDOLPH T, 2007, Loss tolerant linear optical quantum memory by measurement-based quantum computing, Vol: 9
BARTLETT S, RUDOLPH T, SPEKKENS R, et al., 2006, Degradation of a quantum reference frame, Vol: 8
BARTLETT S, RUDOLPH T, SPEKKENS R, 2006, Dialogue concerning two views on quantum coherence: Factist and fictionist, Vol: 4, Pages: 17-43
Dowling M, Bartlett S, Rudolph T, et al., 2006, How to observe a coherent superposition of an atom and a molecule, Arxiv.org, Pages: 1-17
BRUKNER C, PAUNKOVIC N, RUDOLPH T, et al., 2006, Entanglement-assisted orientation in space, Vol: 4, Pages: 365-370
DOWLING M, BARTLETT S, RUDOLPH T, et al., 2006, Observing a coherent superposition of an atom and a molecule, Vol: 74
BARTLETT S, RUDOLPH T, 2006, Simple nearest-neighbor two-body Hamiltonian system for which the ground state is a universal resource for quantum computation, Vol: 74
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