Coherent Frequency Conversion in a Superconducting Artificial Atom with Two Internal Degrees of Freedom
Phys. Rev. Lett. 108, 107001 (2012)
By adding a large inductance in a dc-SQUID phase qubit loop, one decouples the junctions’ dynamics and creates a superconducting artificial atom with two internal degrees of freedom. In addition to the usual symmetric plasma mode (s mode) which gives rise to the phase qubit, an antisymmetric mode (a mode) appears. These two modes can be described by two anharmonic oscillators with eigenstates |ns⟩ and |na⟩ for the s and a mode, respectively. We show that a strong nonlinear coupling between the modes leads to a large energy splitting between states |0s,1a⟩ and |2s,0a⟩. Finally, coherent frequency conversion is observed via free oscillations between the states |0s,1a⟩ and |2s,0a⟩.
Copyright QUTE-EUROPE 2013 - 2017. All rights reserved.
Latest QIPC News
|
2017-11-30
Wiley-VCH is currently preparing the launch of a new journal, Advanced Quantum Technologies (www.advquantumtech.com). The journal is now open for submission
|
|
2017-11-03
EC vice-president and Commissioner for the Digital Single Market, Andrus Ansip, makes positive remarks about Quantum Technologies and talk about what will be the next steps in Europe for the QT.
|
|
2017-09-27
The final report of the High Level Steering Committee for Quantum Technologies has been published.
|
