White paper: from bound states to the continuum

Johnson, Calvin W.; Launey, Kristina D.; Auerbach, N.; Bacca, Sonia; Barrett, B. R.; Brune, C. R.; Caprio, M. A.; Descouvemont, Pierre; Dickhoff, W. H.; Elster, Ch.; Fasano, Patrick J.; Fossez, K.; Hergert, H.; Hjorth‐Jensen, M.; Hlophe, L.; Hu, B.; Betán, R. Id; Idini, A.; König, S.; Kravvaris, Konstantinos; Lee, Dean; Lei, Jin; Mercenne, Alexis; Pérez, Rodrigo Navarro; Nazarewicz, W.; Nunes, F. M.; Płoszajczak, M.; Rotureau, J.; Rupak, Gautam; Shirokov, A. M.; Thompson, I. J.; Vary, James P.; Volya, Alexander; Fang, Xu; Zegers, R. G. T.; Zelevinsky, Vladimir; Zhang, Xilin

doi:10.1088/1361-6471/abb129

Cited by 52 publications

(15 citation statements)

References 510 publications

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“…At present, there is a process of a sharp increase in the attention of various theoretical groups to the problems of describing unbound nuclear states within the framework of ab initio approaches or methods approaching them in terms of their theoretical level. This trend is clearly re-flected in review [27].…”

Section: Introductionmentioning

confidence: 61%

Detailed study of decay properties of 7He nucleus states in ab initio approach

Rodkin,

Tchuvil'sky

2021

Preprint

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The energies and decay widths of the states of the exotic 7 He nucleus are studied in an ab initio approach. The spectrum of these states is calculated using No-Core Shell Model and corresponding extrapolation procedure. Well-proven on a large amount of data the Daejeon16 potential is used in the calculations. The previously developed NCSM-based approach, which includes a method for constructing the basis of orthogonalized functions of cluster channels and a procedure for matching the cluster form factors obtained within this method with the corresponding asymptotic wave functions, is applied to compute the decay widths of the levels. The possibilities of the approach for calculating the partial decay widths of nuclear states into various channels strongly differing in type of fragmentation, spin, angular momentum of relative motion, and amplitude are demonstrated. The results obtained are compared with the results of other microscopic calculations.

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Section: Introductionmentioning

confidence: 61%

Detailed study of decay properties of 7He nucleus states in ab initio approach

Rodkin,

Tchuvil'sky

2021

Preprint

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“…For the analysis and interpretation of these experiments, reliable reaction theory is imperative. However, apart from reactions on light nuclei, reaction theory is still largely phenomenological and relies on poorly constrained effective interactions to keep calculations tractable [4].…”

Section: Introductionmentioning

confidence: 99%

Toward emulating nuclear reactions using eigenvector continuation

Drischler,

Quinonez,

Giuliani

et al. 2021

Preprint

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We construct an efficient emulator for two-body scattering observables using the general (complex) Kohn variational principle and trial wave functions derived from eigenvector continuation. The emulator simultaneously evaluates an array of Kohn variational principles associated with different boundary conditions, which allows for the detection and removal of spurious singularities known as Kohn anomalies. When applied to the K-matrix only, our emulator resembles the one constructed by Furnstahl et al. [Phys. Lett. B 809, 135719] although with reduced numerical noise. After a few applications to real potentials, we emulate differential cross sections for 40 Ca(n, n) scattering based on a realistic optical potential and quantify the model uncertainties using Bayesian methods. These calculations serve as a proof of principle for future studies aimed at improving optical models.

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“…Introduction.-The nucleus is an open quantum system (OQS) where virtual excitations to continuum states provide an essential mechanism of the effective interaction [1,2]. Well known manifestations of nuclear openness are segregation of decay time scales [3,4], modification of the effective interactions [1], multichannel effects in reaction cross-sections and shell occupancies [5,6], or near-threshold clustering and correlations [7,8], etc.…”

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confidence: 99%