Zobrazeno 1 - 10
of 148
pro vyhledávání: '"Kuhlmann, A. V."'
Autor:
Eggli, Rafael S., Patlatiuk, Taras, Kelly, Eoin G., Orekhov, Alexei, Salis, Gian, Warburton, Richard J., Zumbühl, Dominik M., Kuhlmann, Andreas V.
Building a practical quantum processor involves integrating millions of physical qubits along with the necessary components for individual qubit manipulation and readout. Arrays of gated silicon spins offer a promising route toward achieving this goa
Externí odkaz:
http://arxiv.org/abs/2407.21484
Autor:
Kelly, Eoin G., Orekhov, Alexei, Hendrickx, Nico, Mergenthaler, Matthias, Schupp, Felix, Paredes, Stephan, Eggli, Rafael S., Kuhlmann, Andreas V., Harvey-Collard, Patrick, Fuhrer, Andreas, Salis, Gian
In gate-based dispersive sensing, the response of a resonator attached to a quantum dot gate is detected by a reflected radio-frequency signal. This enables fast readout of spin qubits and tune up of arrays of quantum dots, but comes at the expense o
Externí odkaz:
http://arxiv.org/abs/2309.10473
Publikováno v:
Solid-State Electronics 200 (2023) 108550
We present a TCAD-based simulation framework established for quantum dot spin qubits in a silicon FinFET platform with all-electrical control of the spin state. The framework works down to 1K and consists of a two-step simulation chain, from definiti
Externí odkaz:
http://arxiv.org/abs/2306.03213
Autor:
Bosco, Stefano, Geyer, Simon, Camenzind, Leon C., Eggli, Rafael S., Fuhrer, Andreas, Warburton, Richard J., Zumbühl, Dominik M., Egues, J. Carlos, Kuhlmann, Andreas V., Loss, Daniel
The spin-orbit interaction in spin qubits enables spin-flip transitions, resulting in Rabi oscillations when an external microwave field is resonant with the qubit frequency. Here, we introduce an alternative driving mechanism of hole spin qubits, wh
Externí odkaz:
http://arxiv.org/abs/2303.03350
Autor:
Eggli, Rafael S., Svab, Simon, Patlatiuk, Taras, Trüssel, Dominique A., Carballido, Miguel J., Kwon, Pierre Chevalier, Geyer, Simon, Li, Ang, Bakkers, Erik P. A. M., Kuhlmann, Andreas V., Zumbühl, Dominik M.
Publikováno v:
Phys. Rev. Applied 20, 054056 (2023)
Radio frequency reflectometry techniques enable high bandwidth readout of semiconductor quantum dots. Careful impedance matching of the resonant circuit is required to achieve high sensitivity, which however proves challenging at cryogenic temperatur
Externí odkaz:
http://arxiv.org/abs/2303.02933
Autor:
de Kruijf, Mathieu, Geyer, Simon, Berger, Toni, Mergenthaler, Matthias, Braakman, Floris, Warburton, Richard J., Kuhlmann, Andreas V.
Fast feedback from cryogenic electrical characterization measurements is key for the development of scalable quantum computing technology. At room temperature, high-throughput device testing is accomplished with a probe-based solution, where electric
Externí odkaz:
http://arxiv.org/abs/2212.12369
Autor:
Geyer, Simon, Hetényi, Bence, Bosco, Stefano, Camenzind, Leon C., Eggli, Rafael S., Fuhrer, Andreas, Loss, Daniel, Warburton, Richard J., Zumbühl, Dominik M., Kuhlmann, Andreas V.
Semiconductor spin qubits offer a unique opportunity for scalable quantum computation by leveraging classical transistor technology. Hole spin qubits benefit from fast all-electrical qubit control and sweet spots to counteract charge and nuclear spin
Externí odkaz:
http://arxiv.org/abs/2212.02308
Autor:
Schuff, Jonas, Lennon, Dominic T., Geyer, Simon, Craig, David L., Fedele, Federico, Vigneau, Florian, Camenzind, Leon C., Kuhlmann, Andreas V., Briggs, G. Andrew D., Zumbühl, Dominik M., Sejdinovic, Dino, Ares, Natalia
Publikováno v:
Quantum 7, 1077 (2023)
Pauli spin blockade (PSB) can be employed as a great resource for spin qubit initialisation and readout even at elevated temperatures but it can be difficult to identify. We present a machine learning algorithm capable of automatically identifying PS
Externí odkaz:
http://arxiv.org/abs/2202.00574
Autor:
Severin, B., Lennon, D. T., Camenzind, L. C., Vigneau, F., Fedele, F., Jirovec, D., Ballabio, A., Chrastina, D., Isella, G., de Kruijf, M., Carballido, M. J., Svab, S., Kuhlmann, A. V., Braakman, F. R., Geyer, S., Froning, F. N. M., Moon, H., Osborne, M. A., Sejdinovic, D., Katsaros, G., Zumbühl, D. M., Briggs, G. A. D., Ares, N.
The potential of Si and SiGe-based devices for the scaling of quantum circuits is tainted by device variability. Each device needs to be tuned to operation conditions. We give a key step towards tackling this variability with an algorithm that, witho
Externí odkaz:
http://arxiv.org/abs/2107.12975
Autor:
Camenzind, Leon C., Geyer, Simon, Fuhrer, Andreas, Warburton, Richard J., Zumbühl, Dominik M., Kuhlmann, Andreas V.
The greatest challenge in quantum computing is achieving scalability. Classical computing previously faced a scalability issue, solved with silicon chips hosting billions of fin field-effect transistors (FinFETs). These FinFET devices are small enoug
Externí odkaz:
http://arxiv.org/abs/2103.07369