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Main Authors: Elbaz, Giselle A., Julliard, Pierre-Louis, Cassé, Mikaël, Niebojewski, Heimanu, Bertrand, Benoit, Roussely, Grégoire, Labracherie, Valentin, Vinet, Maud, Meunier, Tristan, Paz, Bruna Cardoso
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.10146
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author Elbaz, Giselle A.
Julliard, Pierre-Louis
Cassé, Mikaël
Niebojewski, Heimanu
Bertrand, Benoit
Roussely, Grégoire
Labracherie, Valentin
Vinet, Maud
Meunier, Tristan
Paz, Bruna Cardoso
author_facet Elbaz, Giselle A.
Julliard, Pierre-Louis
Cassé, Mikaël
Niebojewski, Heimanu
Bertrand, Benoit
Roussely, Grégoire
Labracherie, Valentin
Vinet, Maud
Meunier, Tristan
Paz, Bruna Cardoso
contents Different groups worldwide have been working with the GlobalFoundries 22nm platform (22FDX) with the hopes of industrializing the fabrication of Si spin qubits. To guide this effort, we have performed a systematic study of six of the foundry's processes of reference (POR). Using effective mobility as a figure of merit, we study the impact of gate stack, channel type and back bias as a function of temperature. This screening process selected qubit devices that allowed us to couple quantum dots along both the length and width of the Si channel. We present stability diagrams with clear and regular honeycomb patterns, where spurious elements such as dopants are not observed. By combining these results with room and low temperature simulations, we provide insights into potential technology optimizations and show both the utility of qubit pre-screening protocols as well as the advantages of leveraging forward body bias within an FDSOI (Fully Depleted Silicon-On-Insulator) qubit platform.
format Preprint
id arxiv_https___arxiv_org_abs_2501_10146
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Transport characterization and quantum dot coupling in commercial 22FDX
Elbaz, Giselle A.
Julliard, Pierre-Louis
Cassé, Mikaël
Niebojewski, Heimanu
Bertrand, Benoit
Roussely, Grégoire
Labracherie, Valentin
Vinet, Maud
Meunier, Tristan
Paz, Bruna Cardoso
Mesoscale and Nanoscale Physics
Quantum Physics
Different groups worldwide have been working with the GlobalFoundries 22nm platform (22FDX) with the hopes of industrializing the fabrication of Si spin qubits. To guide this effort, we have performed a systematic study of six of the foundry's processes of reference (POR). Using effective mobility as a figure of merit, we study the impact of gate stack, channel type and back bias as a function of temperature. This screening process selected qubit devices that allowed us to couple quantum dots along both the length and width of the Si channel. We present stability diagrams with clear and regular honeycomb patterns, where spurious elements such as dopants are not observed. By combining these results with room and low temperature simulations, we provide insights into potential technology optimizations and show both the utility of qubit pre-screening protocols as well as the advantages of leveraging forward body bias within an FDSOI (Fully Depleted Silicon-On-Insulator) qubit platform.
title Transport characterization and quantum dot coupling in commercial 22FDX
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2501.10146