Absorptive filters for quantum circuits: Efficient fabrication and cryogenic power handling

Absorptive filters for quantum circuits: Efficient fabrication and cryogenic power handling

We present an efficient fabrication method for absorptive microwave filters based on Eccosorb CR-124. Filters are fabricated from readily available parts and their cut-off frequency can be set by their length. They exhibit desirable properties such as a very large and deep stop band with rejection b...

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Veröffentlicht in:arXiv.org 2022-02
Hauptverfasser: Paquette, Alexandre, Griesmar, Joël, Lavoie, Gabriel, Romain, Albert, Blanchet, Florian, Grimm, Alexander, Martel, Ulrich, Hofheinz, Max
Format: Artikel
Sprache:eng
Schlagworte:
Absorptivity
Filtration
Low temperature
Microwave filters
Mixers
Noise temperature
Physics - Applied Physics
Step response
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Zusammenfassung:We present an efficient fabrication method for absorptive microwave filters based on Eccosorb CR-124. Filters are fabricated from readily available parts and their cut-off frequency can be set by their length. They exhibit desirable properties such as a very large and deep stop band with rejection beyond 120 dB at least up to 40 GHz, more than 10 dB return loss in both the pass and the stop band as well as an error-function shaped step response without overshoot. Measurements at very low temperature show that the filters thermalize on a time scale of the order of 100 s and that they can absorb power as high as 100 nW with their noise temperature staying remarkably cool, below 100 mK. These properties make the filters ideal for cryogenic filtering and filtering of IF port signals of mixers.
ISSN:2331-8422
DOI:10.48550/arxiv.2202.11628