Possible Lightest 
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 Hypernucleus with Modern 
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 Interactions

Hiyama, Emiko; Sasaki, Kenji; Miyamoto, Takaya; Doi, Takumi; Hatsuda, Tetsuo; Yamamoto, Yasuo; Rijken, Th. A.

doi:10.1103/physrevlett.124.092501

Cited by 38 publications

(45 citation statements)

References 52 publications

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“…In Ref. [300], on the other hand, the authors have searched for ΞN N and ΞN N N bound systems using phenomenological potentials and the ΞN potential extracted from LQCD [232]. The ΞN N N system with isospin 0 and J π = 1 + appears to be bound, being deeply bound for the Nijmegen potential and shallow for the HAL QCD one, below the 3 H/ 3 He + Ξ threshold.…”

Section: Theory Of Hypernuclei: From Chiral Effective Field Theory Tomentioning

confidence: 99%

Strangeness in nuclei and neutron stars

Tolós

Fabbietti

2020

Progress in Particle and Nuclear Physics

188

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We review the present status of the experimental and theoretical developments in the field of strangeness in nuclei and neutron stars. We start by discussing theKN interaction, that is governed by the presence of the Λ(1405). We continue by showing the two-pole nature of the Λ(1405), and the production mechanisms in photon-, pion-, kaon-induced reactions as well as proton-proton collisions, while discussing the formation ofKN N bound states. We then move to the theoretical and experimental analysis of the properties of kaons and antikaons in dense nuclear matter, paying a special attention to kaonic atoms and the analysis of strangeness creation and propagation in nuclear collisions. Next, we examine the φ meson and the advances in photoproduction, protoninduced and pion-induced reactions, so as to understand its properties in dense matter. Finally, we address the dynamics of hyperons with nucleons and nuclear matter, and the connection to the phases of dense matter with strangeness in the interior of neutron stars.

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Section: Theory Of Hypernuclei: From Chiral Effective Field Theory Tomentioning

confidence: 99%

Strangeness in nuclei and neutron stars

Tolós

Fabbietti

2020

Progress in Particle and Nuclear Physics

188

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“…If the NN force could be calculated, this would help to understand what happens in neutron stars at higher densities. Moreover, hyperon-nucleon interactions from lattice QCD can also be used in few-body calculations of hypernuclei [44]. Another opportunity is LECs for three-body forces in the T = 3/2 sector and three-neutron observables.…”

Section: Progress and Prioritiesmentioning

confidence: 99%

Nuclear Structure at the Crossroads

2021

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“…In this work we explore the possible existence of light Ξ hypernuclei up to A = 7. For the lightest system, 3 Ξ H, several calculations can be found in the literature [16][17][18][19]. Not surprisingly, the predictions strongly depend on the interaction models used.…”

Section: Introductionmentioning

confidence: 99%

“…Not surprisingly, the predictions strongly depend on the interaction models used. For example, Garcilazo et al [16] and Hiyama et al [18] both obtained a deeply bound 3 Ξ H (J π = 3/2 + , T = 1/2) state employing an effective Ξ N potential that mimics the phase shifts of the Nijmegen ESC08c potential [20]. On the other hand, for interactions derived within chiral effective field theory (EFT) [21] or for Ξ N potentials deduced from lattice QCD simulations by the HAL QCD Collaboration [22], the system is found to be unbound [18,19].…”

Section: Introductionmentioning

confidence: 99%

“…For example, Garcilazo et al [16] and Hiyama et al [18] both obtained a deeply bound 3 Ξ H (J π = 3/2 + , T = 1/2) state employing an effective Ξ N potential that mimics the phase shifts of the Nijmegen ESC08c potential [20]. On the other hand, for interactions derived within chiral effective field theory (EFT) [21] or for Ξ N potentials deduced from lattice QCD simulations by the HAL QCD Collaboration [22], the system is found to be unbound [18,19]. It has to be said that a strongly attractive Ξ N force as suggested by that ESC08c potential, which even yields a Ξ N two-body bound state [20], is not supported by the currently available empirical constraints [23] including the aforementioned femtoscopic measurements, and also not by lattice simulations at almost physical masses [22].…”

Section: Introductionmentioning

confidence: 99%

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$$A=4-7$$ $$\varXi $$ hypernuclei based on interactions from chiral effective field theory

Haidenbauer

Meißner

et al. 2021

Eur. Phys. J. A

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We investigate the existence of bound $$\varXi $$ Ξ states in systems with $$A=4-7$$ A = 4 - 7 baryons using the Jacobi NCSM approach in combination with chiral NN and $$\varXi $$ Ξ N interactions. We find three shallow bound states for the NNN$$\varXi $$ Ξ system (with $$(J^\pi ,T)=(1^+,0)$$ ( J π , T ) = ( 1 + , 0 ) , $$(0^+,1)$$ ( 0 + , 1 ) and $$(1^+,1)$$ ( 1 + , 1 ) ) with quite similar binding energies. The $$^5_{\varXi }\mathrm {H}(\frac{1}{2}^+,\frac{1}{2})$$ Ξ 5 H ( 1 2 + , 1 2 ) and $$^7_{\varXi }\mathrm {H}(\frac{1}{2}^+,\frac{3}{2})$$ Ξ 7 H ( 1 2 + , 3 2 ) hypernuclei are also clearly bound with respect to the thresholds $$^4\mathrm {He} + \varXi $$ 4 He + Ξ and $$^6\mathrm {He} +\varXi $$ 6 He + Ξ , respectively. The binding of all these $$\varXi $$ Ξ systems is predominantly due to the attraction of the chiral $$\varXi $$ Ξ N potential in the $$^{33}S_1$$ 33 S 1 channel. A perturbative estimation suggests that the decay widths of all the observed states could be rather small.

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Possible Lightest Ξ Hypernucleus with Modern ΞN Interactions

Cited by 38 publications

References 52 publications

Strangeness in nuclei and neutron stars

Strangeness in nuclei and neutron stars

Nuclear Structure at the Crossroads

$$A=4-7$$ $$\varXi $$ hypernuclei based on interactions from chiral effective field theory

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