Physicsnpj Computational Materials
Spin properties and optical transitions of the CO2 defect in silicon for quantum technology applications
P. Udvarhelyi
This research by P. Udvarhelyi delves into the intriguing CO2 defect in silicon, revealing its potential as a single-photon source and a promising platform for quantum computing, thanks to groundbreaking insights on spin interactions and optical transitions.
Related Publications
Explore these studies to deepen your understanding
Adjacent work that informs or extends this paper's methodology and findings.
Physics
The silicon vacancy centers in SiC: determination of intrinsic spin dynamics for integrated quantum photonics
D. Liu, F. Kaiser, et al.
Political Science
Policy failures and energy transitions: the regulatory bricolage for the promotion of renewable energy in Mexico and Chile
M. Natorski and I. Solorio
Psychology
Exploring the Role of Sociability, Ownership, and Affinity for Technology in Shaping Acceptance and Intention to Use Personal Assistance Robots.
E. Roesler, S. Rudolph, et al.
Chemistry
Applications of quantum computing for investigations of electronic transitions in phenylsulfonyl-carbazole TADF emitters
Q. Gao, G. O. Jones, et al.
