![]() Spectroscopy and topological phases for organic excitons *** CANCELLED *** Dicke Superradiance, Entanglement and Quantum Interferenceĭiamond nanophotonic optomechanics: towards hybrid quantum systems Is Vanadium Dioxide credible for ultrafast photonic switching? Nonlinear Dynamics of Photons in Lossy, Coupled Photonic Crystal Cavities ![]() Quantum error correction course u of a how to#How to "fix" Purcell's formula for leaky optical cavities and plasmonic nanoresonators Quantum Computing for and from Field Theory, with Quantum Optics Applicationsĭicke Superradiance, Entanglement and Quantum Interference Squeezing and entanglement in the radiation emitted by a normal conductor in the presence of a quantum current Nonadiabatic Molecular Dynamics Interrogated via On-the-fly Ab Initio SimulationĪ strong loophole-free test of local realism Measuring the subluminal group velocity of structured single photons Ultrafast single-photon manipulation with an upconversion time lens Talk of potential interest: Billions and Billions of Molecules Quantum enhancements in photonic information processing On efficiently solvable cases of Quantum k-SATĮxperimental generation of entangled states for multiparty QKDĪ time-domain multiplexed measurement-based large-scale optical quantum computer Information Processing and the Atomtronic Transistor Oscillator Quadrature Coherence Scale Driven Fast Decoherence of Bosonic States Afilliated Institutes and Research Organizations.Earth, Atmospheric, and Planetary Physics.3rd and 4th Year Supervised Courses in Physics (PHY37x/PHY47x).Program Guidance for the Physics Specialist Program.Research, Employment and Summer Opportunities.SURF - Natalia Krasnopolskaia Memorial Summer Undergraduate Research Fellowship.Intro to NSERC Summer Student Program in Physics at Toronto.IDEA Statement: Physics as an Inclusive Community.This course's page on Quantum Computing at the University of Tartu. The ultimate goal of Fatol Surf is: (1) to understand what really happens on a quantum computing device (e.g., quantum repeater, quantum computer) with error correction when a quantum algorithm is executed and (2) to become able to experiment with quantum codes (surface or not) on quantum communication or computing devices, and so contribute to the quantum revolution. The number of participants in Fatol Surf is limited students specializing in quantum computing are preferred. Fatol Surf is considerably more demanding though, than Basqect: It has no lectures, and the reading consists of a couple of research papers. The 6 ECTS reading course LTAT.00.0015 "Fatol Surf" (FAult TOLerance with SURFace codes) subsumes the content of LTAT.00.0014, and then, in the second half of the semester, moves to fault tolerant quantum computing based on surface codes (a special type of stabilizer codes) - the real deal. ![]() Luckily, based on Nobel-prize worthy ideas of Peter Shor from the late 1990s, correcting quantum error and "undoing" decoherence (due to interaction of the quantum device with the rest of the universe) is possible, and can be understood and applied by the math-capable student.Īt the end of this 3-ECTS course, you can correct quantum errors - which is amazing! In terms of quantum communication, it already gets you somewhere. While some low-hanging fruit in quantum communication and quantum computation can be reached on noisy quantum devices (e.g., simple Quantum Key Distribution in quantum communication, or simple simulations of condensed matter with quantum computing devices), for the second quantum revolution (arising from the ability to coherently manipulate quantum systems) to happen, quantum error must be corrected. For quantum devices, that problem is much larger: Not only are quantum errors more pervasive, but correcting them is more subtle, as inspecting the quantum state in order to fix it is not easily possible without destroying it. LTAT.00.014 3-6 ECTS Basqect * - Basics of Quantum Error CorrectionĬlassical communication and computation devices are prone to errors, which makes (classical) error correcting codes necessary. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |