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Bayesian analysis of nucleon-nucleon scattering data in pionless effective field theory

https://doi.org/10.1103/PhysRevC.111.034005

Bub, J_M; Piarulli, M.; Furnstahl, R_J; Pastore, S.; Phillips, D_R (March 2025, Physical Review C)
From chiral effective field theory to perturbative QCD: A Bayesian model mixing approach to symmetric nuclear matter

https://doi.org/10.1103/PhysRevC.111.035804

Semposki, A_C; Drischler, C.; Furnstahl, R_J; Melendez, J_A; Phillips, D_R (March 2025, Physical Review C)
Assessing correlated truncation errors in modern nucleon-nucleon potentials

https://doi.org/10.1103/PhysRevC.110.044002

Millican, P_J; Furnstahl, R_J; Melendez, J_A; Phillips, D_R; Pratola, M_T (October 2024, Physical Review C)
Colloquium: Eigenvector continuation and projection-based emulators

https://doi.org/10.1103/RevModPhys.96.031002

Duguet, Thomas; Ekström, Andreas; Furnstahl, Richard_J; König, Sebastian; Lee, Dean (August 2024, Reviews of Modern Physics)
High-resolution momentum distributions from low-resolution wave functions

https://doi.org/10.1016/j.physletb.2024.138591

Tropiano, AJ; Bogner, SK; Furnstahl, RJ; Hisham, MA; Lovato, A; Wiringa, RB (May 2024, Physics Letters B)

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ROSE: A reduced-order scattering emulator for optical models

https://doi.org/10.1103/PhysRevC.109.044612

Odell, D.; Giuliani, P.; Beyer, K.; Catacora-Rios, M.; Chan, M_Y-H; Bonilla, E.; Furnstahl, R_J; Godbey, K.; Nunes, F_M (April 2024, Physical Review C)
Optimized nuclear energy density functionals including long-range pion contributions

https://doi.org/10.1103/PhysRevC.109.014319

Zurek, L; Bogner, S K; Furnstahl, R J; Navarro_Pérez, R; Schunck, N; Schwenk, A (January 2024, Physical Review C)

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Wave-function-based emulation for nucleon-nucleon scattering in momentum space

https://doi.org/10.1103/PhysRevC.107.054001

Garcia, A. J.; Drischler, C.; Furnstahl, R. J.; Melendez, J. A.; Zhang, Xilin (May 2023, Physical Review C)

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BUQEYE guide to projection-based emulators in nuclear physics

https://doi.org/10.3389/fphy.2022.1092931

Drischler, C.; Melendez, J. A.; Furnstahl, R. J.; Garcia, A. J.; Zhang, Xilin (February 2023, Frontiers in Physics)

The BUQEYE collaboration (Bayesian Uncertainty Quantification: Errors in Your effective field theory) presents a pedagogical introduction to projection-based, reduced-order emulators for applications in low-energy nuclear physics. The term emulator refers here to a fast surrogate model capable of reliably approximating high-fidelity models. As the general tools employed by these emulators are not yet well-known in the nuclear physics community, we discuss variational and Galerkin projection methods, emphasize the benefits of offline-online decompositions, and explore how these concepts lead to emulators for bound and scattering systems that enable fast and accurate calculations using many different model parameter sets. We also point to future extensions and applications of these emulators for nuclear physics, guided by the mature field of model (order) reduction. All examples discussed here and more are available as interactive, open-source Python code so that practitioners can readily adapt projection-based emulators for their own work.
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Nuclear properties with semilocal momentum-space regularized chiral interactions beyond $N^{2} LO$

https://doi.org/10.1103/PhysRevC.106.064002

Maris, P.; Roth, R.; Epelbaum, E.; Furnstahl, R. J.; Golak, J.; Hebeler, K.; Hüther, T.; Kamada, H.; Krebs, H.; Le, H.; et al (December 2022, Physical Review C)

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