Hyperon equation of state for core-collapse simulations ... · Hajime Togashi HYP2018@ VA USA, June...
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Hyperon equation of state for core-collapse simulations based on the variational many-body theory
Hajime Togashi
HYP2018@ VA USA, June 28, 2018
RIKEN Nishina Center, RIKEN
Collaborators: E. Hiyama (RIKEN), M. Takano (Waseda University)
1:Introduction
2:Variational Method for Hyperon Equation of State
3:Application to Compact Stars
4:Summary
Outline
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(APJL 789 (2014) L39) (APJ 786 (2014) 83) Figure by K. Nakazato
Core-Collapse Supernovae Black Hole Formation Neutron Star Merger
1: IntroductionThe era of multi-messenger astronomy has officially begun!
The nuclear equation of state (EOS) is important input for numerical simulations.
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(M. Oertel et al., Rev. Mod. Phys. 89 (2017) 015007)
Supernova equation of state (SN-EOS) Nuclear EOS for supernova simulations
TNTYST | AV18+UIX n, p, α, ( A, Z ) 2.21 11.5 0.32 y Togashi et al. (2017)
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Skyrme-type effective interaction
Relativistic Mean Field Theory
(M. Oertel et al., Rev. Mod. Phys. 89 (2017) 015007)
Supernova equation of state (SN-EOS) Nuclear EOS for supernova simulations
TNTYST | AV18+UIX n, p, α, ( A, Z ) 2.21 11.5 0.32 y Togashi et al. (2017)
We have constructed a new SN-EOS with the variational method starting from bare nuclear forces.
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http://www.np.phys.waseda.ac.jp/EOS/!
Nuclear EOS table with the variational method
(HT et al., NPA961 (2017) 78) 4/14
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http://www.np.phys.waseda.ac.jp/EOS/!
Nuclear EOS table with the variational method
(HT et al., NPA961 (2017) 78)
Uniform EOS: AV18 + UIX
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http://www.np.phys.waseda.ac.jp/EOS/!
Nuclear EOS table with the variational method
(HT et al., NPA961 (2017) 78)
Uniform EOS: AV18 + UIX
Uniform
Non-uniform
Non-uniform EOS: Thomas-Fermi method
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http://www.np.phys.waseda.ac.jp/EOS/!
Nuclear EOS table with the variational method
(HT et al., NPA961 (2017) 78)
Uniform EOS: AV18 + UIX
Uniform
Non-uniform
Non-uniform EOS: Thomas-Fermi method
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http://www.np.phys.waseda.ac.jp/EOS/!
Nuclear EOS table with the variational method
(HT et al., NPA961 (2017) 78)
Uniform EOS: AV18 + UIX
Uniform
Non-uniform
Non-uniform EOS: Thomas-Fermi method
We aim to extend the microscopic EOS table to consider Λ hyperon mixing.
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HYPERON PUZZLE
D. Lonardoni et al., PRL 114 (2015) 092301
Hyperon Three-Body Force (ΛNN TBF)
Nuclear EOS with hyperons
• EOS becomes softer due to hyperon mixing.
• Maximum mass tends to be lower than the observational data.
• Shen EOS with Λ, Σ, Ξ [Mmax = 1.67 M◉] (C. Ishizuka et al., JPG 35 (2008) 085201) • Shen EOS with Λ [Mmax = 1.75 M◉] (H. Shen et al., APJS 197 (2011) 20) • LS EOS with Λ [Mmax = 1.91 M◉] (M. Oertel et al., PRC 85 (2012) 055806) • HS EOS with Λ [Mmax = 2.11 M◉] (S. Banik et al., APJS 214 (2014) 22) • HS EOS with Λ, Σ, Ξ [Mmax = 2.04 M◉] (M. Marques et al., PRC 96 (2017) 045806)
SN-EOS with Hyperons
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HYPERON PUZZLE
D. Lonardoni et al., PRL 114 (2015) 092301
Hyperon Three-Body Force (ΛNN TBF)
Nuclear EOS with hyperons
• EOS becomes softer due to hyperon mixing.
• Maximum mass tends to be lower than the observational data.
• Shen EOS with Λ, Σ, Ξ [Mmax = 1.67 M◉] (C. Ishizuka et al., JPG 35 (2008) 085201) • Shen EOS with Λ [Mmax = 1.75 M◉] (H. Shen et al., APJS 197 (2011) 20) • LS EOS with Λ [Mmax = 1.91 M◉] (M. Oertel et al., PRC 85 (2012) 055806) • HS EOS with Λ [Mmax = 2.11 M◉] (S. Banik et al., APJS 214 (2014) 22) • HS EOS with Λ, Σ, Ξ [Mmax = 2.04 M◉] (M. Marques et al., PRC 96 (2017) 045806)
SN-EOS with Hyperons
• We extend the microscopic EOS table to consider Λ hyperon mixing in a self-consistent manner.
Aim of this study
• We investigate the effects of hyperon three-body forces (TBF) on the structure of compact stars.
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- Constructed so as to reproduce the experimental binding energies of light Λ hypernuclei with the Gaussian expansion method.
(E. Hiyama et al., PRC 74 (2006) 054312) Vij : Λ-Nucleon (N) potentialΛN
(E. Hiyama et al., PRC 66 (2002) 024007) Vij : Λ-Λ potentialΛΛ
- the experimental double-Λ binding energy from 6He (NAGARA event) ΛΛ
Hyperon Two-Body Central Potentials Vij : Argonne v18 (AV18) potentialΝN
Two-body Hamiltonian
2. Variational Method for Hyperon EOS
E2: Expectation value of H2 in the two-body cluster approximation 6/14
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Jastrow wave function ΦF: The Fermi-gas wave function
Correlation function:
Cluster-expansion
Expectation value of the Hamiltonian
E2 is the expectation value of H2 in the two-body cluster approximation with the Jastrow wave function.
p: parity s: two-particle total spin µ: particle pair
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Three-Body Energy
Repulsive part of UIX pot. is extended to the potential for Hyperon TBF
Nuclear EOS (previous study)
(µ = NNN, ΛNN, ΛΛN, ΛΛΛ)
αNNN: we use the value in the nuclear EOS (Saturation properties+ Thomas-Fermi calculation for atomic nuclei)
αΛNN, αΛΛN, αΛΛΛ: We assume “0 ≤ αµ ≤ αNNN”
Pijk: Three-particle projection operator µ
Correction termModified expectation value of H3 with ΦF
E3 is the expectation value with the Fermi-gas wave function. 8/14
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Free energy for Λ hyperon matterTotal energy per baryon: E (nB, xp, xΛ) =E2 + E3
Baryon number density : nB = np + nn + nΛ Particle fraction: xi = ni /nB (i = p, Λ)
The prescription by Schmidt and Pandharipande is employed to obtain the free energy at finite temperature.
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Single particle potential for Λ particle
Energy levels of the Λ single-particle major shells (Rev. Mod. Phys. 88 (2016) 035004)
Total energy per baryon: E (nB, xp, xΛ) = E2 + E3
Baryon number density : nB = np + nn + nΛParticle fraction: xi = ni /nB (i = p, Λ)
nB = 0.16 fm-3
xp = 1/2 xΛ = 0
Chemical potential of Λ: µΛ
-32 MeV ≤ µΛ ≤ -28 MeV → 0.266 ≤ αΛNN/αNNN ≤ 0.47510/14
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w/o Hyperon 3BF
Nuclear Matter
w/o Hyp. 3BF
3. Application to Compact Stars
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w/o Hyperon 3BF
Nuclear Matter
• µΛ = -30 MeV (αΛNN= 0.370 αNNN)
• 0 ≤ αΛΛN = αΛΛΛ ≤ αNNN
3. Application to Compact Stars
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Application to Supernova matter
(0 ≤ αΛΛN = αΛΛΛ ≤ αNNN)
- Charge neutral and Isentropic matter (The entropy per baryon S ~ 1-2)- Neutrino-free β-stable matter
Supernova matter
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We construct the EOS for nuclear matter
Summary
including Λ hyperons at zero and finite temperatures by the variational method.
• The effect of Λ hyperons on neutrino-free matter becomes larger at higher entropies.
• The obtained thermodynamic quantities are reasonable.Variational method for hyperon matter
Application of the EOS to compact stars
The era of multi-messenger astronomy has officially begun. → It is necessary to construct the reliable EOS
for numerical simulations of astrophysical compact phenomena!
• ΛNN three-body force: affects on the single-particle potential and the onset density of Λ hyperon mixing • ΛΛN and ΛΛΛ three-body force: affects on the maximum mass of neutron stars (Important for HYPERON PUZZLE!?)
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