Exercise 3 (2017-03-13) Student Presentation: Density Matrix and Entanglement with SC qubits
"Two-Qubit State Tomography Using a Joint Dispersive Readout"
"Superconducting quantum circuits at the surface code threshold for fault tolerance"
(focus on readout and tomography part)
"Preparation and measurement of three-qubit entanglement in a superconducting circuit"
Exercise 4 (2017-03-20) Student Presentation: The transmon and two-qubit gates
"Coupling superconducting qubits via a cavity bus"
"Cavity quantum electrodynamics for superconducting electrical circuits: An architecture for quantum computation"
Exercise 5 (2017-03-27) Student Presentation: Quantum algorithms with SC qubits
"Demonstration of two-qubit algorithms with a superconducting quantum processor"
Exercise 6 (2017-04-03) Student Presentation: Quantum teleportation with SC qubits
"Deterministic quantum teleportation with feed-forward in a solid state system"
Bennet et.al. (original proposal)
Pfaff et.al. (different implementation for comparison)
Exercise 7 (2017-04-10) Student Presentation: Entanglement in NV centers:
"Demonstration of entanglement-by-measurement of solid-state qubits"
Exercise 8 (2017-04-24) Student presentation: Bells inequality in Quantum Dots and photons:
"Experimental Realization of Einstein-Podolsky-Rosen-Bohm Gedankenexperiment: A New Violation of Bell's Inequalities"
"Bell's inequality violation with spins in silicon"
Exercise 9 (2017-05-08) Student Presentation: Shors algorithm in NMR:
"Experimental realization of Shor's quantum factoring algorithm using nuclear magnetic resonance"
NMR techniques for quantum control and computation
Vandersypen and Chuang
Exercise 10 (2016-05-15) Student Presentation: Quantum algorithms with ions
"Demonstration of a small programmable quantum computer with atomic qubits"
"Entangled states of trapped atomic ions"
Rainer Blatt & David Wineland
Exercise 11 (2016-05-22) Student Presentation: Quantum error correction with ions:
"Experimental Repetitive Quantum Error Correction"
Exercise 12 (2016-05-29) Student Presentation: Quantum error correction with SC qubits
"Demonstration of a quantum error detection code using a square lattice of four superconducting qubits"