Motivated by recent experimental observations carried out in superconducting transmon
circuits, we compare two different charging protocols for three-level quantum batteries based …

The advantages of quantum pulses over quantum gates have attracted increasing attention
from researchers. Quantum pulses offer benefits such as flexibility, high fidelity, scalability …

Neutrino oscillations are genuine quantum phenomena in which coherent oscillations are
maintained over a long distance. As a result, in principle, the phenomena can be studied …

Recent hardware demonstrations and advances in circuit compilation have made quantum
computing with higher-dimensional systems (qudits) on near-term devices an attractive …

Towards the practical use of quantum computers in the NISQ era, as well as the realization
of fault-tolerant quantum computers that utilize quantum error correction codes, pressing …

Recent advances in quantum computing have brought us closer to realizing the potential of
this transformative technology. While significant strides have been made in quantum error …

Quantum optimal control plays a crucial role in quantum computing by providing the
interface between compiler and hardware. Solving the optimal control problem is particularly …

Noise remains a fundamental challenge in quantum computing, significantly affecting pulse
fidelity and overall circuit performance. This paper introduces an adaptive algorithm for …

Ion traps stand at the forefront of quantum hardware technology, presenting unparalleled
benefits for quantum computing, such as high-fidelity gates, extensive connectivity, and …

The impact of quantum computing on the classical computing based cybersecurity has been
discussed extensively over the past 30 years. This led to development of the so-called post …