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Andrew Houck
Researcher at Princeton University
Publications - 145
Citations - 15970
Andrew Houck is an academic researcher from Princeton University. The author has contributed to research in topics: Qubit & Circuit quantum electrodynamics. The author has an hindex of 49, co-authored 134 publications receiving 12949 citations. Previous affiliations of Andrew Houck include Harvard University & Massachusetts Institute of Technology.
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Charge-insensitive qubit design derived from the Cooper pair box
Jens Koch,Terri M. Yu,Jay M. Gambetta,Andrew Houck,David Schuster,Johannes Majer,Alexandre Blais,Michel Devoret,Steven Girvin,Robert Schoelkopf +9 more
TL;DR: In this paper, the transmon was proposed to operate in a regime of significantly increased ratio of Josephson energy and charging energy, while maintaining sufficient anharmonicity for selective qubit control.
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Coupling superconducting qubits via a cavity bus.
Johannes Majer,Jerry M. Chow,Jay M. Gambetta,Jens Koch,Blake R. Johnson,J. A. Schreier,Luigi Frunzio,David Schuster,Andrew Houck,Andreas Wallraff,Andreas Wallraff,Alexandre Blais,Alexandre Blais,Michel Devoret,S. M. Girvin,Robert Schoelkopf +15 more
TL;DR: These experiments show that two nearby qubits can be readily coupled with local interactions, and show the implementation of a quantum bus, using microwave photons confined in a transmission line cavity, to couple two superconducting qubits on opposite sides of a chip.
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On-chip quantum simulation with superconducting circuits
TL;DR: Superconducting circuits exhibit behavior analogues to natural quantum entities, such as atom, ions and photons as mentioned in this paper, and large-scale arrays of such circuits hold the promise of providing a unique route to quantum simulation.
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Resolving photon number states in a superconducting circuit
David Schuster,Andrew Houck,J. A. Schreier,Andreas Wallraff,Andreas Wallraff,Jay M. Gambetta,Alexandre Blais,Alexandre Blais,Luigi Frunzio,Johannes Majer,Blake R. Johnson,Michel Devoret,S. M. Girvin,Robert Schoelkopf +13 more
TL;DR: A circuit QED experiment is reported in the strong dispersive limit, a new regime where a single photon has a large effect on the qubit without ever being absorbed, the basis of a logic bus for a quantum computer.
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Experimental observations of a left-handed material that obeys Snell's law.
TL;DR: 2D measurements of collimated microwave beams transmitted through composite wire and split-ring resonator prisms demonstrate that transmission obeys Snell's law with a negative index, confirming the refractive nature of this signal and refuting alternatives posed in the criticisms.