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Main Authors: Jennings, Asher, Grytsenko, Ivan, Tian, Yiran, Rybalko, Oleksiy, Wang, Jun, Barabash, Itay Josef, Kawakami, Erika
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.09890
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author Jennings, Asher
Grytsenko, Ivan
Tian, Yiran
Rybalko, Oleksiy
Wang, Jun
Barabash, Itay Josef
Kawakami, Erika
author_facet Jennings, Asher
Grytsenko, Ivan
Tian, Yiran
Rybalko, Oleksiy
Wang, Jun
Barabash, Itay Josef
Kawakami, Erika
contents We present a method for probing the quantum capacitance associated with the Rydberg transition of surface electrons on liquid helium using radio-frequency (RF) reflectometry. Resonant microwave excitation of the Rydberg transition induces a redistribution of image charges on capacitively coupled electrodes, giving rise to a quantum capacitance originating from adiabatic state transitions and the finite curvature of the energy bands. By applying frequency-modulated resonant microwaves to drive the Rydberg transition, we systematically measured a capacitance sensitivity of 0.34~aF/$\sqrt{\mathrm{Hz}}$ for our RF reflectometry scheme. This sensitivity is sufficient to detect the Rydberg transition of a single electron, offering a scalable pathway toward qubit readout schemes based on surface electrons on helium.
format Preprint
id arxiv_https___arxiv_org_abs_2504_09890
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Probing the Quantum Capacitance of Rydberg Transitions of Surface Electrons on Liquid Helium via Microwave Frequency Modulation
Jennings, Asher
Grytsenko, Ivan
Tian, Yiran
Rybalko, Oleksiy
Wang, Jun
Barabash, Itay Josef
Kawakami, Erika
Mesoscale and Nanoscale Physics
Quantum Physics
We present a method for probing the quantum capacitance associated with the Rydberg transition of surface electrons on liquid helium using radio-frequency (RF) reflectometry. Resonant microwave excitation of the Rydberg transition induces a redistribution of image charges on capacitively coupled electrodes, giving rise to a quantum capacitance originating from adiabatic state transitions and the finite curvature of the energy bands. By applying frequency-modulated resonant microwaves to drive the Rydberg transition, we systematically measured a capacitance sensitivity of 0.34~aF/$\sqrt{\mathrm{Hz}}$ for our RF reflectometry scheme. This sensitivity is sufficient to detect the Rydberg transition of a single electron, offering a scalable pathway toward qubit readout schemes based on surface electrons on helium.
title Probing the Quantum Capacitance of Rydberg Transitions of Surface Electrons on Liquid Helium via Microwave Frequency Modulation
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2504.09890