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Photon shell game in three-resonator circuit quantum electrodynamics

The ability to coherently switch a state between two systems is a key requirement for quantum information processing. Such control is now demonstrated by shifting the quantum state of a microwave photon between any one of three superconducting-circuit resonators: in analogy to the classic three cups and a ball game.

Matteo Mariantoni
H. Wang
A. N. Cleland
Research30 Jan 2011
Nature Physics

Volume: 7, P: 287-293
Violation of Bell's inequality in Josephson phase qubits

Bell inequalities are a quantitative measure that can distinguish classically determined correlations from stronger quantum correlations, and their measurement provides strong experimental evidence that quantum mechanics provides a complete description. The violation of a Bell inequality is now demonstrated in a solid-state system; the experiment provides further strong evidence that a macroscopic electrical circuit is really a quantum system.

Markus Ansmann
H. Wang
John M. Martinis
Research24 Sept 2009
Nature

Volume: 461, P: 504-506
Generation of three-qubit entangled states using superconducting phase qubits

Quantum entanglement is one of the key resources required for quantum computation. In superconducting devices, two-qubit entangled states have been used to implement simple quantum algorithms, but three-qubit states, which can be entangled in two fundamentally different ways, have not been demonstrated. Here, however, three superconducting phase qubits have been used to create and measure these two entangled three-qubit states.

Matthew Neeley
Radoslaw C. Bialczak
John M. Martinis
Research29 Sept 2010
Nature

Volume: 467, P: 570-573
Quantum ground state and single-phonon control of a mechanical resonator

Quantum mechanics provides an accurate description of a wide variety of physical systems but it is very challenging to prove that it also applies to macroscopic (classical) mechanical systems. This is because it has been impossible to cool a mechanical mode to its quantum ground state, in which all classical noise is eliminated. Recently, various mechanical devices have been cooled to a near-ground state, but this paper demonstrates the milestone result of a piezoelectric resonator with a mechanical mode cooled to its quantum ground state.

A. D. O’Connell
M. Hofheinz
A. N. Cleland
Research17 Mar 2010
Nature

Volume: 464, P: 697-703
Amplitude and frequency sensing of microwave fields with a superconducting transmon qudit

M. Kristen
A. Schneider
M. Weides
ResearchOpen Access25 Jun 2020
npj Quantum Information

Volume: 6, P: 1-5
The role of excitation vector fields and all-polarisation state control in cavity magnonics

Alban Joseph
Jayakrishnan M. P. Nair
Rair Macêdo
ResearchOpen Access04 Dec 2024
npj Spintronics

Volume: 2, P: 1-9
Correlating the nanostructure of Al-oxide with deposition conditions and dielectric contributions of two-level systems in perspective of superconducting quantum circuits

S. Fritz
A. Seiler
D. Gerthsen
ResearchOpen Access21 May 2018
Scientific Reports

Volume: 8, P: 1-11

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Photon shell game in three-resonator circuit quantum electrodynamics

Violation of Bell's inequality in Josephson phase qubits

Generation of three-qubit entangled states using superconducting phase qubits

Quantum ground state and single-phonon control of a mechanical resonator

Amplitude and frequency sensing of microwave fields with a superconducting transmon qudit

The role of excitation vector fields and all-polarisation state control in cavity magnonics

Correlating the nanostructure of Al-oxide with deposition conditions and dielectric contributions of two-level systems in perspective of superconducting quantum circuits

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