Neutron Star Binaries and Related Astrophysical Issues [email protected] Chang-Hwan Lee @...
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Transcript of Neutron Star Binaries and Related Astrophysical Issues [email protected] Chang-Hwan Lee @...
![Page 2: Neutron Star Binaries and Related Astrophysical Issues HIM2010-12@yonsei.10.12.11 Chang-Hwan Lee @ 1.](https://reader035.fdocuments.net/reader035/viewer/2022062803/56649f275503460f94c3e676/html5/thumbnails/2.jpg)
Q) Maximum Mass of Neutron Star ?
Nature 467, 1081 (Oct. 28, 2010)
PSR J1614-2230 (Millisecond Pulsas & White Dwarf Binary)
1.97 ± 0.04 Msun
(measurement based on Shapiro delay)
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Contents
Motivation
Neutron Star Equation of States
Maximum Neutron Star Mass (Observations)
Other Astrophysical Issues- Formation & Evolution of NS Binaries- Gamma-ray Bursts - Gravitational Wave”
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Neutron StarsM = 1.5 solar massR < 15kmA = 10^57 nucleonscomposed of p, n, e, hyperons, quarks, … 4
Motivations 1: why Neutron Stars ?
Ultimate Testing place for physics of dense matter Chiral symmetry restoration
Color superconductivity
Color-flavor locking
Quark-Gluon-Plasma ?
… … …
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Motivations 2: why Neutron Stars ?
Gravitational waves from
NS-NS and NS-BH Binaries
Cosmological Heavy Ion Collisions
LIGO, VIRGO, ..
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Motivations 3: why Neutron Stars ?
Origin of gamma-ray bursts (GRBs)
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Two groups of GRBs
Long-duration Gamma-ray Bursts:
=> HMBH Binaries
Short Hard Gamma-ray Bursts:
Duration time < 2 sec
=> NS-NS, NS-BH Binaries
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NS : higher density, low T, long lifetime
HIC : high density, high T, very short
lifetime
main difficulties for NS : cannot design
experiment
one can design detectors only,
then, wait !!!
Motivations 4 : Possible Connection to Heavy Ion Collisions
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Contents
Motivation
Neutron Star Equation of States
Maximum Neutron Star Mass (Observations)
Other Astrophysical Issues- Formation & Evolution of NS Binaries- Gamma-ray Bursts - Gravitational Wave”
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“Neutron/Strange/Quark” Star
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There are many equation of states (EoS) for NS
In this talk, kaon condensation will be introduced as an example of “soft EoS”.
Astrophysical approaches in NS masses in are rather independent of the details of EoS as long as they are “soft”.
A few remarks
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scalar vector total
K+ (us) attractive repulsive slightlyrepulsive
K- (us) attractive attractive attractive
Kaons interactions with chiral symmetry
Interactions with up & down quarks in p, n
s-quark doesn’t do much because it’s different quark !
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proton, neutron: u, d quarks
By introducing strange quark, we have one moredegrees of freedom, energy of the system can be reduced!
In what form ? Kaon, Hyperons … …
Why Strange Quarks in Neutron Stars ?
Kaon is the lighest particle with strange quark !
Kaon condensation in dense matter
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Kaon Condensation in Dense Matter
reduce pressure forming denser medium
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Astrophysical Implications
Neutrinos
Formation of low mass Black Hole
Neutron Star
Reduce PressureSoft EoS
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Black Holes
Neutron Stars
Soft equation of state (e.g., kaon condensation)
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Q) What is the critical density for kaon condensation ?
1. Conventional approaches (bottom-up):from zero density to higher density
2. New approaches (top-down):from high density where symmetry is restored- e.g., vector manifestation fixed point- e.g., AdS/QCD
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Problems in bottom-up approach
1. Problem in K-p Scattering amplitude:experiment : - 0.67 + i 0.63 fm (repulsive) chiral symmetry : + ( attractive ! )
2. Problem of (1405)pole position of (1405) => only 30 MeV below KN threshold
Perturbation breaks down in bottom-up approach !
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Far below (1405) pole, (1405) is irrelevant !
One has to start below (1405)
pole !
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Essense of KN scattering & kaon condensation puzzle
Near =MK/2, (1405) is irrelevant !
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Start from where the symmetry is fully restored !
- Kaon Condensation `a la HY Vector Manifestation
- AdS/QCD, etc.
Wanted : New Top-down approaches
=> All irrelevant terms are out in the analysis from the beginning!
Q) Is there a proper way to treat kaon condensation which doesn’t have problems with the irrelevant terms, e.g., (1405), etc, from the beginning ?
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Kaon condensation from RG fixed point (PRL 101, 091101 (2008))
density
Kaon mass drops to 0
before fixed point
e
K
nc
Lots of problems due to irrelevant
terms
?
chiral symmetry restoration
Only EOS which gives c
< SB is acceptable !22
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Open Question:Given the theoretical uncertainties,
which one is the right one ?
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Contents
Motivation
Neutron Star Equation of States
Maximum Neutron Star Mass (Observations)
Other Astrophysical Issues- Formation & Evolution of NS Binaries- Gamma-ray Bursts - Gravitational Wave”
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Q) Higher (than 1.5 Msun) neutron star masses ?
1. Radio pulsars(white dwarf companion) Nature 467, 1081 (2010) : J1614-2230 (1.97 Msun)
2. X-ray Binary
3. Millisecond Pulsar J1903+0327
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WD-NS Binary
1. Neutron Stars with White Dwarf companions
Lattimer & Prakash (2007)
NS-NS
X-ray pulsar
NS-Main Sequence
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Pulsar J0751+1807
2.1 ± 0.2 solar mass
1.26 +0.14 -0.12 solar mass
Nice, talk@40 Years of Pulsar, McGill, Aug 12-17, 2007
Nice et al., ApJ 634 (2005) 1242.
difficulties in Bayesian analysis for WD mass
Proven uncertainties in high-mass NS in NS-WD
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Recent measurement by Shapiro delay
Nature 467, 1081 (Oct. 28, 2010)
PSR J1614-2230 (Millisecond Pulsas & White Dwarf Binary)
1.97 ± 0.04 Msun
(measurement based on Shapiro delay)
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X-ray Pulsars
Lattimer & Prakash (2007)
Mass measurements are highly uncertain
Many recent efforts to improve the estimates
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Q) X-ray Binary [Vela X-1] > 2 Msun ?
“The best estimate of the mass of Vela X-1 is 1.86 Msun. Unfortunately, no firm constraints on the equation of state are possible since systematic deviations in the radial-velocity curve do not allow us to exclude a mass around 1.4 Msun as found for other neutron stars.” [Barziv et al. 2001]
Actual center of mass
Optical center (observation)
NSHe
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rph= radius of photosphere
Steiner, Lattimer, Brown, arXiv:1005.0811
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arXiv:1810.1521
2 sigma error
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D.J. Champion et al., Science 320, 1309 (2008)
3. Millisecond Pulsar J1903+0327
orbital period : P=95.1741 days Spin period : P=2.14991 ms (recycled
pulsar) Highly eccentricity : e=0.43668 Mass estimate = 1.74(4) Msun Observations of NS-MS(main sequence)
binary requires different evolution process
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If this limit is firm, maximum neutron star mass should be at least 1.7 Msun
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Q) IF maximum NS mass is confirmed to be 1.7 Msun
Why all well-measured NS masses in NS-NS binaries are < 1.5 Msun ?
Maybe, new-born NS mass is constrained by the stellar evolution, independently of maximum mass of NSs.
Lattimer & Prakash (2007)
NS-NS
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Giant Star
One has to understand formation of black hole/neutron star
black hole or neutron star
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Fe core mass
Neutron Star
In close Binaries
Black Hole
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Fresh NS mass from Fe core collapse
Both in single & close binaries
Fe core mass NS mass = 1.3 - 1.5 Msun
This value is independent of NS equation of state.
Q) What is the fate of primary (first-born) NS in binaries ?
Note: Accurate mass estimates of NS come from binaries
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Question) Final fate of first-born NS ?
NS Progenitor Evolution
1st-born NS
NS or BH ?
He
Accretion
Fe2nd NS
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Supercritical Accretion onto first-born NS
Eddington Accretion Rate : photon pressure balances the gravitation attraction
If this limit holds, neutron star cannot be formed from the beginning (e.g. SN1987A; 108 Eddington Limit).
Neutrinos can take the pressure out of the system allowing the supercritical accretion when accretion rateis bigger than 104 Eddington limit ! (T > 1 MeV : Thermal neutrinos dominates !)
Q) What is the implications of supercritical accretion ?
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H red giant He red giant
NS
NS
90% 10%
A
B
Life time
H He He
+0.7 Msun
+0.2 Msun
Supercritical Accretion: First born NS should accrete 0.9 M⊙ !
Case 1 : > 10%
A
B
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NS
NSA
B
Life time
He
No accretion : nearly equal masses !
H
H common envelope
H
He
He common envelope
Case 2 : < 1%
A
B
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Lee et al., ApJ 670, 741 (2007)
Black Holes ?maximum NS mass:1.5 Msun ∼ 1.8 Msun
y-axis: final mass of first-born NS in NS-NS Binaries, if they can stay as NS NS-BH
NS-NS
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• Maximum NS mass can be any value within 1.5~1.8 Msun as far as supercritical accretion is concerned
Consequences of Supercritical Accretion
unseen “NS+LMBH” are 5 times more dominant than seen “NS+NS” system.
“NS+LMBH” system may increase LIGO detection rate by factor of about 10.
Possibilities of investigating NS inner structure via Gravitational Waves & Short-hard GRBs
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Open Question ?
Are these different approaches consistent with each other ?
• Neutron Star Equation of States : Both in bottom-up & top-down approaches
• Neutron Star Observations (Radio, X-ray, Optical, …)
• Formation & Evolution Neutron Star Binaries
• Gravitational Waves from Colliding Neutron Stars
• Soft-Hard Gamma-ray Bursts from Colliding Neutron Stars
• Properties of Dense Matter from Heavy Ion Collisions
• … …45
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Many Thanks
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