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Chang: Cold atoms coupled to photonic crystals: a platform for tunable long-range interactions
Darrick Chang, The Institute of Photonic Sciences
Significant efforts have been made to interface cold atoms with micro- and nano-photonic systems in recent years. Originally, it was envisioned
that the migration to these systems from free-space atomic ensemble or
Vern Paulsen: Quantum chromatic numbers
Vern Paulsen, University of Houston
The chromatic number of a graph has a description as the classical value of a three-person game. If instead one plays a quantum version of this game, then this yields a smaller value--the quantum chromatic number of the graph. However, using the Algebraic Quantum Field Theory (AQFT) model could yield a larger set of quantum correlations, and a different value for the quantum chromatic number.
Julien Bernu: Overview of quantum optics experiments in ANU
Julien Bernu, Australian National University (ANU)
1- Photon number discrimination without photon counting (theory and experiment)
Yury Kurochkin: Quantum optics experiments in Russian Quantum Center
Yury Kurochkin, Russian Quantum Center in Skolkovo, Moscow
In this talk I want to present progress of our quantum optics laboratory. Our laboratory was built in the summer 2013. During the past year we've performed number of beautiful experiments. One of the featured experiments is "Quantum vampire" which demonstrates non-local properties of the annihilation operator. This beautiful effect predicts that if you take particular number of photons from the part of the light beam there will be now shadow.
NEW DATE and TIME: Dieter Suter: Towards reliable quantum computing: Protecting quantum information against environmental noise and experimental imperfections
Dieter Suter, Universität Dortmund
Quantum information is a very valuable, but also very fragile resource.
Val Zwiller: Nanowire quantum dots for quantum optics
Val Zwiller, Delft University of Technology, Netherlands
Nanowires offer exciting opportunities in quantum optics. Using quantum dots in semiconducting nanowires, we demonstrate the generation of single photons as well as pairs of entangled photons. Making electrical contacts to semiconducting nanowires, we make a single quantum dot LED where electroluminescence from a single quantum dot can be studied. Similar devices operated as photodiodes enable the operation of single nanowire avalanche photodiodes.
Nathan Wiebe: Quantum arithmetic and numerical analysis using Repeat-Until-Success circuits
Nathan Wiebe, Microsoft Research
We develop a method for approximate synthesis of single--qubit rotations of the form e^{-i f(\phi_1,\ldots,\phi_k)X} that is based on the Repeat-Until-Success (RUS) framework for quantum circuit synthesis. We demonstrate how smooth computable functions, f, can be synthesized from two basic primitives. This synthesis approach constitutes a manifestly quantum form of arithmetic that differs greatly from the approaches commonly used in quantum algorithms.
Quantum Industry Lecture Series: Nathan Wiebe, Microsoft
Introducing the next installment of the Quantum Industry Lecture Series (QuILS). Nathan Wiebe, a former IQC postdoctoral fellow who is currently working at Microsoft, will talk to us about what it's like to work in research for a technological powerhouse.
Alessandro Cosentino: Limitations on separable measurements by convex optimization
Alessandro Cosentino, IQC
I will discuss some new results we have recently obtained for the
problem of quantum states discrimination by Local Operations and