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Main Authors: Ibad, Sayyid Irsyadul, Suzuki, Yusaku, Tadokoro, Masahiro, Futaya, Tokio, Nishiyama, Shimpei, Kato, Kimihiko, Murakami, Shigenori, Mori, Takahiro, Mizokuchi, Raisei, Yoneda, Jun, Kodera, Tetsuo
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.29164
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author Ibad, Sayyid Irsyadul
Suzuki, Yusaku
Tadokoro, Masahiro
Futaya, Tokio
Nishiyama, Shimpei
Kato, Kimihiko
Murakami, Shigenori
Mori, Takahiro
Mizokuchi, Raisei
Yoneda, Jun
Kodera, Tetsuo
author_facet Ibad, Sayyid Irsyadul
Suzuki, Yusaku
Tadokoro, Masahiro
Futaya, Tokio
Nishiyama, Shimpei
Kato, Kimihiko
Murakami, Shigenori
Mori, Takahiro
Mizokuchi, Raisei
Yoneda, Jun
Kodera, Tetsuo
contents In this work, we examine microwave responses of the Pauli spin blockade (PSB) leakage current through a p-type silicon double quantum dot. We observe more than the expected two resonance lines with the main resonance line exhibits both positive and negative peaks as a function of the magnetic field, corresponding to enhancement and suppression of the PSB leakage current, respectively. We attribute the observed spectra to the interplay between two spin rotation mechanisms: spin-orbit-mediated electric dipole spin resonance (EDSR) and multilevel Landau-Zener (MLLZ) interference, both of which are present in electrically driven devices with strong spin-orbit coupling (and enhanced in the vicinity of orbital level crossings). A numerical simulation taking into account both mechanisms show agreement with the experimental results. While these unconventional spectral behaviours can be readily suppressed away from the orbital level crossing or in devices with weak spin-orbit coupling, our study showcases the potential complexity of spin-rotating mechanisms for electrically driven spin qubits.
format Preprint
id arxiv_https___arxiv_org_abs_2603_29164
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Interplay of Electric Dipole Spin Resonance and Multilevel Landau-Zener Interference in p-Type Silicon Quantum Dots
Ibad, Sayyid Irsyadul
Suzuki, Yusaku
Tadokoro, Masahiro
Futaya, Tokio
Nishiyama, Shimpei
Kato, Kimihiko
Murakami, Shigenori
Mori, Takahiro
Mizokuchi, Raisei
Yoneda, Jun
Kodera, Tetsuo
Mesoscale and Nanoscale Physics
In this work, we examine microwave responses of the Pauli spin blockade (PSB) leakage current through a p-type silicon double quantum dot. We observe more than the expected two resonance lines with the main resonance line exhibits both positive and negative peaks as a function of the magnetic field, corresponding to enhancement and suppression of the PSB leakage current, respectively. We attribute the observed spectra to the interplay between two spin rotation mechanisms: spin-orbit-mediated electric dipole spin resonance (EDSR) and multilevel Landau-Zener (MLLZ) interference, both of which are present in electrically driven devices with strong spin-orbit coupling (and enhanced in the vicinity of orbital level crossings). A numerical simulation taking into account both mechanisms show agreement with the experimental results. While these unconventional spectral behaviours can be readily suppressed away from the orbital level crossing or in devices with weak spin-orbit coupling, our study showcases the potential complexity of spin-rotating mechanisms for electrically driven spin qubits.
title Interplay of Electric Dipole Spin Resonance and Multilevel Landau-Zener Interference in p-Type Silicon Quantum Dots
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2603.29164