Quantum Computing

  title={Quantum Computing},
  author={Telecommunications Board},
Exploring a Double Full-Stack Communications-Enabled Architecture for Multi-Core Quantum Computers
This paper proposes a double full-stack architecture encompassing quantum computation and quantum communications, which is used to address the monolithic versus multi-core question with a structured design methodology.
Quantum computing
This fundamental gives a brief overview of the three layers of a quantum computer: hardware, system software, and application layer.
Practical quantum advantage in quantum simulation.
The development of quantum computing across several technologies and platforms has reached the point of having an advantage over classical computers for an artificial problem, a point known as
Mechanism of Electron Spin Decoherence in a Partially Deuterated Glassy Matrix.
Long electron spin coherence lifetimes are essential for applications in quantum information science and electron paramagnetic resonance, for instance, for nanoscale distance measurements in
An Overview on Deployment Strategies for Global Quantum Key Distribution Networks
The state-of-the-art deployment strategies of quantum key distribution networks are reviewed and compared in terms of channel loss, interference, distance limit, connection topology, and deployment cost.
Doping catalysed unintentional hydrogenation effect on the structural, optical and magnetic properties of Co-doped ZnO semiconductor nanoparticles
Simultaneous Co (cobalt) doping and hydrogenation on wide band gap ZnO semiconductor nanoparticles was achieved via one pot chemical reduction. The powder X-ray diffraction results confirmed that the
Artificial Intelligence Computing at the Quantum Level
This paper provides a thorough examination of quantum computing from the perspective of a physicist to give laypeople and scientists a broad but in-depth understanding of the area.
AKAME: A post-quantum authenticated key-agreement and message encryption scheme based on ring-LWE
The paper aims to provide a robust key-agreement algorithm between two entities without using any reconciliation mechanism, and is capable of providing both 2 118 or 2 254 classical security and 2 102 or 2 241 quantum security.
HybridPKE: A forward-secure non-interactive quantum-safe hybrid key exchange scheme
Effects of Nonmagnetic Impurities and Subgap States on the Kinetic Inductance, Complex Conductivity, Quality Factor, and Depairing Current Density
  • T. Kubo
  • Physics
    Physical Review Applied
  • 2022
We investigate how a combination of a nonmagnetic-impurity scattering rate γ and finite subgap states parametrized by Dynes Γ affects various physical quantities relevant to to superconducting