Spin Qubit is a semiconducting qubit approach for quantum computing hardware. Source: pdf text.
Abstract
Surface induced magnetism of quantum dots is not well understood and has been a subject of considerable controversy because of the complexity of surface chemistry of quantum dot facets coupled with the many degrees of freedom inherently involved in magnetism. We performed spin-polarized colinear density functional theory calculations to study charge and spin densities to determine surface reconstructions in bare as well as passivated quantum dots in controlled way. We find that tricoordinated surface atoms relax contributing no dangling bonds and bi-coordinated atoms dimerize, reducing the population of the dangling bonds affecting the induced magnetism. As a result, bicoordinated rather than tricoordinated surface atoms are responsible for spin polarized surface states. In light of recent advanced experimental tools, we predict dangling bonds that remain, despite passivation, on low index facets with bicoordinated atoms could result in tunable surface magnetism. Our results also shed light on the contradicting experimental results in the literature.
Key Findings
Links
- arXiv: 2606.17681
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