Cryogenic data storage technology is of use in superconducting single-flux quantum
electronics and quantum computing. However, the lack of compatible cryogenic memory …

A scalable cryogenic memory system is one of the prime requirements for the
implementation of practical quantum computers, large-scale single flux quantum circuits …

Recently, there has been a surge of research in the field of superconducting spintronics,
which combines superconductivity and magnetism. This emerging field is considered an …

Superconducting electronics are among the most promising alternatives to conventional
CMOS technology, thanks to the ultra-fast speed and ultra-high energy efficiency of the …

Next-generation quantum computing (QC) systems, comprising thousands of qubits, are
envisioned to accommodate the quantum substrate (qubits) and classical components …

Cryogenic compute in-memory (CiM) is a promising alternative to room temperature von-
Neumann technologies since cryogenic electronics can provide high speed and energy …

The recent progress in quantum computing and space exploration led to a surge in interest
in cryogenic electronics. Superconducting devices such as Josephson junction, Josephson …

Electrostatically tunable Josephson field-effect transistors (JoFETs) are one of the most
desired building blocks of quantum electronics. Applications of JoFETs range from …

The recent progress in quantum computing and space exploration led to a surge in interest
in cryogenic electronics. Superconducting devices such as Josephson junction, Josephson …

Superconducting (SC) electronics (SCE) is one of the major requirements to develop a large-
scale practical quantum computing system.(Figs. 1 (a))[1]. Currently, a room temperature …