The 81st JSAP Autumn Meeting, 2020

Presentation information

Oral presentation

9 Applied Materials Science » 9.3 Nanoelectronics

[9p-Z26-1~14] 9.3 Nanoelectronics

Wed. Sep 9, 2020 1:00 PM - 5:15 PM Z26

Katsuhiko Nishiguchi(NTT), Yasuhisa Naitoh(AIST)

3:45 PM - 4:00 PM

[9p-Z26-11] Study on the Cooper-pair transistor as a fast supercurrent switch

〇(D)Jutarat Tanarom1, Hiroshi Shimada1 (1.Univ.Electro-Commun.)

Keywords:Cooper-pair transistor, Josephson junction, Supercurrent switch

The Cooper-pair transistor (CPT) is expected to perform as a fast supercurrent switch when it is operated on the supercurrent branch of the current (I) -voltage (V) characteristic near zero voltage. However, the maximum supercurrent through the CPT is quite low (typically, < 100 nA) when compared with other superconducting electronics technologies. In order to combine them with other superconducting electronics, the difference in the current level is to be addressed.
In this study, we examined the scalability of the supercurrent that could be gate-modulated for parallel N CPTs having a common gate electrode, in the range 1 ≤ N ≤ 100. The devices were composed of Al/AlxOy/Al junctions of the size approximately 200 nm×100 nm, and the common gate consisted of an Al electrode with a thick oxide layer on it lain beneath the island electrodes. The measurement was performed at 75 mK with a compact dilution refrigerator. The I - V characteristics and the gate modulation of the supercurrent of the parallel CPT’s were measured. The measured result shows the increase in the maximum supercurrent as a function of N. The magnitude of the supercurrent could be scaled up with parallel multiple CPT’s. However, the width of the current peak in the Coulomb oscillation of the supercurrent increased considerably with the increase in N. This is considered due to the random offset charges, possibly, in the gate oxide, tunnel barriers, etc. We estimated the distribution of the magnitude of the random offset charges with a simulation assuming a Gaussian distribution of it.