Biblography¶
- WGFC13a
Wiebe N., Granade C. E., Ferrie C. & Cory D. G. Hamiltonian Learning and Certification Using Quantum Resources. arXiv:1309.0876
- WGFC13b
Wiebe N., Granade C. E., Ferrie C. & Cory D. G. Quantum Hamiltonian Learning Using Imperfect Quantum Resources. arXiv:1311.5269
- GFWC12
Granade C. E., Ferrie C., Wiebe N. & Cory D. G. Robust online Hamiltonian learning. New Journal of Physics 14 103013 (2012). :doi:`10.1088/1367-2630/14/10/103013`. arXiv:1207.1655.
- QInfer
Granade, Christopher, et al. “QInfer: Statistical inference software for quantum applications.” Quantum 1 (2017): 5. https://github.com/QInfer/python-qinfer
- GFK20
Gentile, Andreas A., Flynn, Brian, et al. “Learning models of quantum systems from experiments”. arXiv:2002.06169
- SCG13
Smeltzer, Benjamin and Childress, Lilian and Gali, Adam. 13C hyperfine interactions in the nitrogen-vacancy centre in diamond. New Journal of Physics 13 025021 (2013).
- QMLA
Flynn, Brian. Quantum Model Learning Agent. https://github.com/flynnbr11/QMLA