Effective lumped models of distributed elements for scalable design of superconducting quantum devices

Elizabeth Kunz; Eli M Levenson-Falk

Effective lumped models of distributed elements for scalable design of superconducting quantum devices

ORAL

Abstract

In quantum circuit design, electromagnetic (EM) simulations are typically required at many steps of the design process. This is both computationally intensive and time-consuming. We develop and test an effective lumped oscillator model (LOM) for a CPW resonator coupled to arbitrary loads. The LOM uses geometric values and capacitances obtained from individual circuit element simulations to determine the system's Hamiltonian parameters of frequency, line-width, and coupling strength.

^*This work was supported by NSF grant OMA-1936388, ONR grant N00014-21-1-2688, AFOSR grant FA9550-23-1-0165, DARPA contract HR0011-24-9-0362, and RCSA Cottrell grant 27550.

Oct. 12, 2025, 1:36 PM – Oct. 12, 2025, 1:48 PM

Presenters

Elizabeth Kunz
- University of Southern California

Authors

Elizabeth Kunz
- University of Southern California
Eli M Levenson-Falk
- University of Southern California