monoprop

References

Bibliography of the papers and methods behind monoprop.

The literature behind monoprop's methods and the problems it targets. The Majorana-propagation method itself is introduced in (Miller et al., 2025), with its scalable circuit-generation extension in (Chakraborty et al., 2026). Fermion-to-qubit mappings are developed in (Miller et al., 2023), and iterative generator screening in (Ryabinkin et al., 2020). Representative large-scale applications appear in (Kim et al., 2023) and (Hartnett et al., 2026).

Bibliography

  1. A. Miller, Z. Holmes, Ö. Salehi, R. Chakraborty, A. Nykänen, Z. Zimborás, A. Glos, and G. García-Pérez, "Simulation of Fermionic circuits using Majorana Propagation," arXiv [quant-ph], 2025. arXiv:2503.18939

  2. R. Chakraborty, A. Miller, A. Nykänen, Ö. Salehi, F. Tarocco, F. Pavošević, P. A. B. Haase, M. Stella, and A. Glos, "Scalable quantum circuit generation for iterative ground state approximation using Majorana Propagation," arXiv [quant-ph], 2026. arXiv:2603.23444

  3. A. Miller, Z. Zimborás, S. Knecht, S. Maniscalco, and G. García-Pérez, "Bonsai Algorithm: Grow Your Own Fermion-to-Qubit Mappings," PRX Quantum, vol. 4, no. 3, p. 030314, 2023. doi:10.1103/PRXQuantum.4.030314

  4. I. G. Ryabinkin, R. A. Lang, S. N. Genin, and A. F. Izmaylov, "Iterative Qubit Coupled Cluster Approach with Efficient Screening of Generators," Journal of Chemical Theory and Computation, vol. 16, no. 2, pp. 1055–1063, 2020. doi:10.1021/acs.jctc.9b01084

  5. Y. Kim, A. Eddins, S. Anand, K. X. Wei, E. van den Berg, S. Rosenblatt, H. Nayfeh, Y. Wu, M. Zaletel, K. Temme, and A. Kandala, "Evidence for the utility of quantum computing before fault tolerance," Nature, vol. 618, no. 7965, pp. 500–505, 2023. doi:10.1038/s41586-023-06096-3

  6. G. S. Hartnett, K. S. Najafi, A. Khindanov, H. Liao, M. Schutzman, M. R. Hush, M. J. Biercuk, and Y. Baum, "Fast, accurate, high-resolution simulation of large-scale Fermi-Hubbard models on a digital quantum processor," arXiv [quant-ph], 2026. arXiv:2605.04025

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