Strongly coupled multi-qubit systems using superconducting quantum circuits
Jeudi 20 avril 2017 09:30
- Duree : 1 heure
Lieu : Salle « Remy Lemaire » (K223) de l’Institut Néel – au n°25 de la rue des martyrs, Grenoble.
Orateur : Rajamani VIJAYARAGHAVAN (TIFR, Mumbai)
Storing and processing information using quantum two level systems (qubits) promises tremendous speed-up for certain computational tasks like find ing prime factors and for simulation of quantum systems. Superconducting electronic circuits operating at millikelvin temperatures have emerged as a leading candidate for building such a quantum processor. One key requirement is controlling and manipulating the interactions between multiple qubits. Rather than using single qubit circuits as building blocks, I will introduce a novel three-qubit superconducting device as an elementary block. The device, nicknamed “trimon” [1] implements three qubits with pairwise longitudinal coupling. The always-on coupling enables simple implementation of generalized controlled rotations using transition selective pulses. I will describe how to harness the full three-qubit computational space and discuss the implementation of several multi-qubit gates like CNOT and Toffoli gate. I will conclude by discussing possible applications of this device and further extensions to this idea.
[1] arXiv:1610.07915v1
Contact : neel.communication@neel.cnrs.fr
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