Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks
C. Schimpf, M. Reindl, F.B. Basset, K.D. Jöns, R. Trotta, A. Rastelli, 118 (2021).
Download
No fulltext has been uploaded.
Conference Paper
| Published
| German
Author
Schimpf, C;
Reindl, M;
Basset, F.B;
Jöns, Klaus D.LibreCat;
Trotta, R;
Rastelli, A
Publishing Year
forms.conference.field.series_title_volume.label
Appl. Phys. Lett
Volume
118
Issue
10
Article Number
100502
LibreCat-ID
Cite this
Schimpf C, Reindl M, Basset FB, Jöns KD, Trotta R, Rastelli A. Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks. 2021;118(10).
Schimpf, C., Reindl, M., Basset, F. B., Jöns, K. D., Trotta, R., & Rastelli, A. (2021). Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks (No. 100502; Vol. 118, Issue 10).
@article{Schimpf_Reindl_Basset_Jöns_Trotta_Rastelli_2021, series={Appl. Phys. Lett}, title={Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks}, volume={118}, number={10100502}, author={Schimpf, C and Reindl, M and Basset, F.B and Jöns, Klaus D. and Trotta, R and Rastelli, A}, year={2021}, collection={Appl. Phys. Lett} }
Schimpf, C, M Reindl, F.B Basset, Klaus D. Jöns, R Trotta, and A Rastelli. “Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks.” Appl. Phys. Lett, 2021.
C. Schimpf, M. Reindl, F. B. Basset, K. D. Jöns, R. Trotta, and A. Rastelli, “Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks,” vol. 118, no. 10. 2021.
Schimpf, C., et al. Quantum dots as potential sources of strongly entangled photons: Perspectives and challenges for applications in quantum networks. no. 10, 100502, 2021.
Google Scholar