存储单元
重置(财务)
计算机科学
约瑟夫森效应
简单(哲学)
超导电性
材料科学
计算机硬件
电气工程
物理
凝聚态物理
晶体管
电压
工程类
金融经济学
认识论
哲学
经济
作者
Alexander Miloshevsky,Niketh Nair,Neena Imam,Yehuda Braiman
标识
DOI:10.1007/s10948-021-06069-5
摘要
In this paper, operational principles of a cryogenic memory cell that utilizes high-temperature superconductors (high-Tc) are presented. Such a cell consists of three inductively coupled Josephson junctions coupled via inductors. Design and operational logic of this type of cell were recently introduced and demonstrated for low temperature 4 K environment. The basic memory cell operations (read, write, reset) can be implemented on the same simple circuit and both destructive and non-destructive memory cell operations can be realized. Here, we present the design principles and computational validation of basic memory cell operations (write, read, and reset) for the high-Tc memory cell. Our results for the high-Tc memory cell operations show very good resemblance with the previously presented low-temperature 4 K memory cell operations.
科研通智能强力驱动
Strongly Powered by AbleSci AI