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The aim of this work is to study the strong measurement of a superconducting quantum bit. To do so, we analysed both its operating system and its environment, which means we analysed the electrodynamic circuits the qubits are coupled into. | |||
Due to the quantum superposition properties the qubit operates on, we are unable to read its two states at the same time. By realising a strong measurement, we are searching the instant state of this qubit. | |||
In this talk I will first discuss the different devices used to make the superconducting qubit and the QED system. Then I will determine the circuit energy coupled to the superconducting qubit. Lastly, I will use this energy to determine the way to measure the qubit state. | |||
Revision as of 00:02, 11 February 2020
- Speaker: Laurent, Boris (Polytech Clermont-Ferrand, Aubière)
- Date: Wednesday August 14, 2019 10:30am
- Place: Jungho Seminar Room
The aim of this work is to study the strong measurement of a superconducting quantum bit. To do so, we analysed both its operating system and its environment, which means we analysed the electrodynamic circuits the qubits are coupled into.
Due to the quantum superposition properties the qubit operates on, we are unable to read its two states at the same time. By realising a strong measurement, we are searching the instant state of this qubit.
In this talk I will first discuss the different devices used to make the superconducting qubit and the QED system. Then I will determine the circuit energy coupled to the superconducting qubit. Lastly, I will use this energy to determine the way to measure the qubit state.
Related documents
His talk slides are available:
His internship is summarized in this