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Main Authors: Escribano, Samuel D., Kriheli, Yael, Goldstein, Samuel, Dahan, Daniel, Katz, Nadav
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.18387
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author Escribano, Samuel D.
Kriheli, Yael
Goldstein, Samuel
Dahan, Daniel
Katz, Nadav
author_facet Escribano, Samuel D.
Kriheli, Yael
Goldstein, Samuel
Dahan, Daniel
Katz, Nadav
contents We propose a broadband Purcell-protection scheme based on a single shared filter integrated directly into the feedline, enabling simultaneous protection of multiple qubits in a compact architecture with minimal hardware overhead. The filter consists of two open-ended stubs connected by an in-line transmission line, forming a $Π$ geometry, and operates via engineered passive microwave interference that suppresses the real part of the environmental admittance over a wide frequency window. Circuit simulations and finite-element modeling show strong suppression of transmission within the target band (the qubit's frequencies) while preserving the readout and reset modes of the multiplexed architecture. For realistic device parameters, the proposed design yields Purcell-limited relaxation times exceeding $1$ ms over a frequency span of approximately $1.5$ GHz, which can be further extended with straightforward modifications of the design. Our results establish the $Π$-filter as a compact and scalable solution for broadband impedance engineering in superconducting quantum circuits, compatible with standard dispersive readout protocols.
format Preprint
id arxiv_https___arxiv_org_abs_2604_18387
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Engineered broadband Purcell protection using a shared $Π$-filter for multiplexed superconducting qubits
Escribano, Samuel D.
Kriheli, Yael
Goldstein, Samuel
Dahan, Daniel
Katz, Nadav
Quantum Physics
We propose a broadband Purcell-protection scheme based on a single shared filter integrated directly into the feedline, enabling simultaneous protection of multiple qubits in a compact architecture with minimal hardware overhead. The filter consists of two open-ended stubs connected by an in-line transmission line, forming a $Π$ geometry, and operates via engineered passive microwave interference that suppresses the real part of the environmental admittance over a wide frequency window. Circuit simulations and finite-element modeling show strong suppression of transmission within the target band (the qubit's frequencies) while preserving the readout and reset modes of the multiplexed architecture. For realistic device parameters, the proposed design yields Purcell-limited relaxation times exceeding $1$ ms over a frequency span of approximately $1.5$ GHz, which can be further extended with straightforward modifications of the design. Our results establish the $Π$-filter as a compact and scalable solution for broadband impedance engineering in superconducting quantum circuits, compatible with standard dispersive readout protocols.
title Engineered broadband Purcell protection using a shared $Π$-filter for multiplexed superconducting qubits
topic Quantum Physics
url https://arxiv.org/abs/2604.18387