Highlights for SOLID

Results tagged as highlights of the project.

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Format: 2019-08-25
Format: 2019-08-25
Format: 2019-08-25


Mar 28, 2011

Projective measurement of single electron and nuclear spins has evolved from a Gedanken experiment to a problem relevant for applications in atomic-scale technologies like quantum computing. Although several approaches allow for detection of a spin of single atoms and molecules, multiple repetitions of the experiment that are usually required for achieving a detectable signal obscure the intrinsic quantum nature of the spin’s behavior. In this paper the group of F. Jelezko and J.


Mar 28, 2011

Devices that harness the laws of quantum physics hold the promise for information processing that outperforms their classical counterparts, and for unconditionally secure communication. However, in particular, implementations based on condensed-matter systems face the challenge of short coherence times. Carbon materials, particularly diamond however, are suitable for hosting robust solid-state quantum registers, owing to their spin-free lattice and weak spin–orbit coupling. In this paper J.


Mar 28, 2011

In this work, the SOLID researchers G. Johannsson, C. M. Wilson and E. Solano propose a microwave photon detector that successfully reaches 100% efficiency with only one absorber. Their design consists of a metastable quantum circuit coupled to a semi-infinite transmission line that performs highly efficient photodetection in a simplified manner as compared to previous proposals.

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