A deep understanding of how to reduce flicker phase noise (PN) in oscillators is critical in
supporting ultra-low PN frequency generation for the advanced communications and other …

This article presents a fully integrated Cryo-CMOS system on chip (SoC) for quantum
computing. The proposed SoC integrates a radio frequency (RF) pulse modulator for qubit …

Over the past decade, significant progress in quantum technologies has been made, and
hence, engineering of these systems has become an important research area. Many …

We present an in-depth analysis of a single-electron box (SEB) biased through a floating
node technique that is common in charge-coupled devices. The device is analyzed and …

Pathbreaking advancements in the field of nanofabrication techniques have put qubit
technology at the forefront of quantum computation. Thanks to Silicon (Si) with its …

The development of quantum electronic devices operating below a few Kelvin degrees is
raising the demand for cryogenic complementary metal-oxide-semiconductor electronics …

Quantum computing has the potential to create a paradigm shift in computing technology,
which can lead to breakthroughs in emerging applications that rely on ultra-high …

Quantum computing (QC) is a new paradigm that exploits fundamental principles of
quantum mechanics, such as superposition and entanglement, to tackle problems in …

Quantum computers comprising large‐scale arrays of qubits will enable complex algorithms
to be executed to provide a quantum advantage for practical applications. A prerequisite for …

In this paper, we propose a CMOS current comparison circuit operating at cryogenic
temperature to readout spin quantum bit (qubit) states via a charge sensing scheme. A …