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We introduce a multimode superconducting inductor architecture that enables radio-frequency reflectometry at multiple discrete frequencies up to 2 GHz, addressing limitations of conventional single-mode designs. The spiral inductor's…

Rapid single shot spin readout is a key ingredient for fault tolerant quantum computing with spin qubits. An RF-SET (radio-frequency single electron transistor) is predominantly used as its the readout timescale is far shorter than the spin…

Silicon spin qubits show great promise as a scalable qubit platform for fault-tolerant quantum computing. However, fast high-fidelity readout of charge and spin states, which is required for quantum error correction, has remained elusive.…

Mesoscale and Nanoscale Physics · Physics 2020-07-10 Elliot J. Connors , JJ Nelson , John M. Nichol

We demonstrate experimentally a read-out method that distinguishes between two-electron spin states in a quantum dot. This scheme combines the advantages of the two existing mechanisms for spin-to-charge conversion with single-shot charge…

Mesoscale and Nanoscale Physics · Physics 2015-06-25 T. Meunier , K-J. Tielrooij , I. T. Vink , F. H. L. Koppens , H. P. Tranitz , W. Wegscheider , L. P. Kouwenhoven , L. M. K. Vandersypen

Silicon spin qubits form one of the leading platforms for quantum computation. As with any qubit implementation, a crucial requirement is the ability to measure individual quantum states rapidly and with high fidelity. As the signal from a…

Mesoscale and Nanoscale Physics · Physics 2019-07-10 G. Zheng , N. Samkharadze , M. L. Noordam , N. Kalhor , D. Brousse , A. Sammak , G. Scappucci , L. M. K. Vandersypen

Fast and high fidelity shuttling of spin qubits has been demonstrated in semiconductor quantum dot devices. Several architectures based on shuttling have been proposed; it has been suggested that singlet-triplet (dual-spin) qubits could be…

Quantum Physics · Physics 2026-03-18 Adam Siegel , Simon Benjamin

The engineering of electron spin qubits in a compact unit cell embedding all quantum functionalities is mandatory for large scale integration. In particular, the development of a high-fidelity and scalable spin readout method remains an…

The duration and fidelity of qubit readout is a critical factor for applications in quantum information processing as it limits the fidelity of algorithms which reuse qubits after measurement or apply feedback based on the measurement…

We study bifurcation measurement of a multi-level superconducting qubit using a nonlinear resonator biased in the straddling regime, where the resonator frequency sits between two qubit transition frequencies. We find that high-fidelity…

Quantum Physics · Physics 2012-09-27 Maxime Boissonneault , J. M. Gambetta , A. Blais

The speed of quantum gates and measurements is a decisive factor for the overall fidelity of quantum protocols when performed on physical qubits with finite coherence time. Reducing the time required to distinguish qubit states with high…

For solid-state spin qubits, single-gate RF readout can help minimise the number of gates required for scale-up to many qubits since the readout sensor can integrate into the existing gates required to manipulate the qubits (Veldhorst 2017,…

Mesoscale and Nanoscale Physics · Physics 2018-12-05 P. Pakkiam , A. V. Timofeev , M. G. House , M. R. Hogg , T. Kobayashi , M. Koch , S. Rogge , M. Y. Simmons

Charge-based qubits have been proposed as fundamental elements for quantum computers. One commonly proposed readout device is the single-electron transistor (SET). SETs can distinguish between localized charge states, but lack the…

Other Condensed Matter · Physics 2009-11-10 Andrew D. Greentree , A. R. Hamilton , F. Green

Proposals for large-scale semiconductor spin-based quantum computers require high-fidelity single-shot qubit readout to perform error correction and read out qubit registers at the end of a computation. However, as devices scale to larger…

Single-shot readout is a key component for scalable quantum information processing. However, many solid-state qubits with favorable properties lack the single-shot readout capability. One solution is to use the repetitive…

Quantum Physics · Physics 2019-07-30 Genyue Liu , Mo Chen , Yi-Xiang Liu , David Layden , Paola Cappellaro

In recent advancements of quantum computing utilizing spin qubits, it has been demonstrated that this platform possesses the potential for implementing two-qubit gates with fidelities exceeding 99.5%. However, as with other qubit platforms,…

Quantum Physics · Physics 2024-03-20 Irina Heinz , Adam R. Mills , Jason R. Petta , Guido Burkard

Silicon quantum dot spin qubits provide a promising platform for large-scale quantum computation because of their compatibility with conventional CMOS manufacturing and the long coherence times accessible using $^{28}$Si enriched material.…

High-fidelity singlet-triplet state readout is essential for large-scale quantum computing. However, the widely used threshold method of comparing a mean value with the fixed threshold will limit the judgment accuracy, especially for the…

Mesoscale and Nanoscale Physics · Physics 2024-08-15 Rong-Long Ma , Sheng-Kai Zhu , Zhen-Zhen Kong , Tai-Ping Sun , Ming Ni , Yu-Chen Zhou , Yuan Zhou , Gang Luo , Gang Cao , Gui-Lei Wang , Hai-Ou Li , Guo-Ping Guo

The single-shot readout data process is essential for the realization of high-fidelity qubits and fault-tolerant quantum algorithms in semiconductor quantum dots. However, the fidelity and visibility of the readout process is sensitive to…

Mesoscale and Nanoscale Physics · Physics 2023-07-10 Rui-Zi Hu , Sheng-Kai Zhu , Xin Zhang , Yuan Zhou , Ming Ni , Rong-Long Ma , Zhen-Zhen Kong , Gui-Lei Wang , Gang Cao , Hai-Ou Li , Guo-Ping Guo

Single electron spins confined in silicon quantum dots hold great promise as a quantum computing architecture with demonstrations of long coherence times, high-fidelity quantum logic gates, basic quantum algorithms and device scalability.…

Mesoscale and Nanoscale Physics · Physics 2020-08-12 J. Yoneda , K. Takeda , A. Noiri , T. Nakajima , S. Li , J. Kamioka , T. Kodera , S. Tarucha