Model for monitoring of a charge qubit using a radio-frequency quantum point contact including experimental imperfections

Details Model for monitoring of a charge qubit using a radio-frequency quantum point contact including experimental imperfections Model for monitoring of a charge qubit using a radio-frequency quantum point contact including experimental imperfections

2007-06-24

arxiv.org/abs/0706.3527v3

Phys. Rev. B 77, 125304 (2008)

Physics

Condensed Matter

Mesoscale and Nanoscale Physics

12 pages, 2 colour figures. v3 is published version (minor changes since v2)

Scientific paper

10.1103/PhysRevB.77.125304

The extension of quantum trajectory theory to incorporate realistic imperfections in the measurement of solid-state qubits is important for quantum computation, particularly for the purposes of state preparation and error-correction as well as for readout of computations. Previously this has been achieved for low-frequency (dc) weak measurements. In this paper we extend realistic quantum trajectory theory to include radio frequency (rf) weak measurements where a low-transparency quantum point contact (QPC), coupled to a charge qubit, is used to damp a classical oscillator circuit. The resulting realistic quantum trajectory equation must be solved numerically. We present an analytical result for the limit of large dissipation within the oscillator (relative to the QPC), where the oscillator slaves to the qubit. The rf+dc mode of operation is considered. Here the QPC is biased (dc) as well as subjected to a small-amplitude sinusoidal carrier signal (rf). The rf+dc QPC is shown to be a low-efficiency charge-qubit detector, that may nevertheless be higher than the dc-QPC (which is subject to 1/f noise).

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