Supercurrent Multiplexing with Solid-State Integrated Hybrid Superconducting Electronics
- URL: http://arxiv.org/abs/2410.11721v1
- Date: Tue, 15 Oct 2024 15:54:31 GMT
- Title: Supercurrent Multiplexing with Solid-State Integrated Hybrid Superconducting Electronics
- Authors: Alessandro Paghi, Laura Borgongino, Simone Tortorella, Giorgio De Simoni, Elia Strambini, Lucia Sorba, Francesco Giazotto,
- Abstract summary: We report the TDM of supercurrent with a 1-input-8-outputs voltage-actuated hybrid superconducting demultiplexer for the first time.
The superconducting demultiplexer operates up to 100 MHz at 50 mK, features an insertion loss of 0 dB in the superconducting state, and an OFF/ON ratio of 17.5 dB in a 50-Ohm-matched cryogenic measurement setup.
- Score: 36.136619420474766
- License:
- Abstract: Time Division Multiplexing (TDM) of cryogenic signal lines is a promising technique that can significantly reduce the required space, minimize the cooldown time, and increase the number of measurable quantum devices per cooldown. Here, we report the TDM of supercurrent with a 1-input-8-outputs voltage-actuated hybrid superconducting demultiplexer for the first time. The device comprises 14 ON/OFF InAsOI-based superconducting Josephson Field Effect Transistors (JoFETs) routed with Al traces. Each JoFET features Al as a superconductor and HfO2 as a gate insulator, and it can entirely suppress the switching current and increase the normal-state resistance by 20 times with a gate voltage of -4.5 V. The superconducting demultiplexer operates up to 100 MHz at 50 mK, features an insertion loss of ~ 0 dB in the superconducting state, and an OFF/ON ratio of ~ 17.5 dB in a 50-Ohm-matched cryogenic measurement setup. The frequency operation range can be extended by designing the demultiplexer with a proper microwave signal transport layout minimizing, at the same time, the impact of the parasitic electrical elements. These achievements open up the practical implementation of superconducting TDM as a key to drastically reducing I/O lines, costs, and space occupation in a cryostat, enabling the scalability of superconducting electronics.
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