Titlebook: Microwave Cavities and Detectors for Axion Research; Proceedings of the 2 Gianpaolo Carosi,Gray Rybka,Karl van Bibber Conference proceeding

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Photonic Band Gap Cavities for a Future ADMX,cial aspect of the haloscope technique employed in ADMX is the ability to tune the frequency of the cavity. In this report it will be shown that PBGs are tuneable within 10% of the fundamental frequency while retaining a high Quality factor.

Scleroderma

Progress on the ARIADNE Axion Experiment, independently of cosmological assumptions. The experiment relies on a stable rotary mechanism and superconducting magnetic shielding, required to screen the .He sample from ordinary magnetic noise. Progress on testing the stability of the rotary mechanism is reported, and the design for the superconducting shielding is discussed.

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First Test of a Photonic Band Gap Structure for HAYSTAC,al to create resonators without TE modes, allowing for uninterrupted tuning. A tunable PBG structure has been designed for HAYSTAC. A prototype has been built and tested to validate simulations. Results of the fixed frequency case will be shown as well as details of the expected tuning.

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树上结蜜糖

Multiple-Cavity Detector for Axion Search,her and combine their individual outputs ensuring phase-matching of the coherent axion signal. In this article, an extensive study of realistic design for the phase-matching mechanism of multiple-cavity systems is performed and its experimental feasibility is demonstrated using a double-cavity system.

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Searching for Low Mass Axions with an LC Circuit,Hz) range a tunable LC circuit has been proposed. Progress in the development of such an LC circuit based search is presented here. This will include preliminary results from prototypes using electrical tuning, superconducting loop antenna, and aluminum shielding.

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