2014
DOI: 10.1063/1.4868107
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Frequency multiplexing for readout of spin qubits

Abstract: We demonstrate a low loss, chip-level frequency multiplexing scheme for readout of scaled-up spin qubit devices. By integrating separate bias tees and resonator circuits on-chip for each readout channel, we realise dispersive gate-sensing in combination with charge detection based on two rf quantum point contacts (rf-QPCs). We apply this approach to perform multiplexed readout of a double quantum dot in the few-electron regime, and further demonstrate operation of a 10-channel multiplexing device. Limitations … Show more

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Cited by 95 publications
(83 citation statements)
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“…Even with careful engineering, sample wiring typically contributes a sample capacitance C S ≳ 0.3 pF in parallel with the device [19]. In our experiment, these parasitic capacitances are mitigated by adding a matching capacitor C M and a decoupling capacitor C D at the input of the matching network.…”
Section: Reflectometry With Perfect Impedance Matchingmentioning
confidence: 99%
“…Even with careful engineering, sample wiring typically contributes a sample capacitance C S ≳ 0.3 pF in parallel with the device [19]. In our experiment, these parasitic capacitances are mitigated by adding a matching capacitor C M and a decoupling capacitor C D at the input of the matching network.…”
Section: Reflectometry With Perfect Impedance Matchingmentioning
confidence: 99%
“…The charge state of the double dot is sensed using an rf quantum point contact 39,40 , which provides a readout signal V rf as a function of the gate voltages V L and V R indicated in (c). With both switches of the matrix set to the off state, a standard charge stability diagram is detected indicating that the off state provides sufficiently high isolation between input and output ports, as shown in Fig.…”
Section: Semiconductor Qubit Controlmentioning
confidence: 99%
“…Much of the physics of interest is only observable using cryogenic systems and the number of coupled devices is limited by the number of available contacts. Recent work has shown the use of multiplexing to greatly increase the number of isolated quantum devices available for measurement on a single chip and single cool-down [4,5] and frequency multiplexing, for the readout of spin qubits [6], has been demonstrated as a potential up-scaling route. The significant challenges presented by the need to upscale however are far from surmounted.…”
mentioning
confidence: 99%