Building Transmon Qubits in the ReZQu Architecture

Julian Kelly; R. Barends; J. Bochmann; B. Chiaro; Y. Chen; M. Lenander; E. Lucero; M. Mariantoni; A. Megrant; C. Neill; P. O'Malley; P. Roushan; D. Sank; A. Vainsencher; J. Wenner; T. White; Y. Yin; Andrew Cleland; John M. Martinis

Building Transmon Qubits in the ReZQu Architecture

ORAL

Abstract

Transmon qubits are promising candidates for use in a superconducting quantum computer because of their long coherence times, but traditionally involve a difficult measurement scheme. By reading out each transmon through a phase qubit, we are able to take advantage of the single shot and multiplexed readout technologies already in use. This allows us to drop transmons into the ReZQu architecture. However, fabricating a transmon and phase qubit on the same chip comes with its own set of challenges. We present fabrication techniques and preliminary data as we move toward our next generation of qubits.

Feb. 29, 2012, 8:48 AM – Feb. 29, 2012, 9:00 AM

Authors

Julian Kelly
- UC Santa Barbara
R. Barends
- UC Santa Barbara
J. Bochmann
- UC Santa Barbara
B. Chiaro
- UC Santa Barbara
Y. Chen
- UC Santa Barbara
M. Lenander
- UC Santa Barbara
E. Lucero
- UC Santa Barbara
M. Mariantoni
- UC Santa Barbara
A. Megrant
- UC Santa Barbara
C. Neill
- UC Santa Barbara
P. O'Malley
- UC Santa Barbara
P. Roushan
- UC Santa Barbara
D. Sank
- UC Santa Barbara
A. Vainsencher
- UC Santa Barbara
J. Wenner
- UC Santa Barbara
T. White
- UC Santa Barbara
Y. Yin
- UC Santa Barbara
Andrew Cleland
- UC Santa Barbara
John M. Martinis
- UC Santa Barbara