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Transcript of Neutrino Processes in Neutron Stars Evgeni E. Kolomeitsev (Matej Bel University, Banska Bystrica,...
![Page 1: Neutrino Processes in Neutron Stars Evgeni E. Kolomeitsev (Matej Bel University, Banska Bystrica, Slovakia)](https://reader030.fdocuments.net/reader030/viewer/2022032805/56649ef55503460f94c091a4/html5/thumbnails/1.jpg)
Neutrino Processes in Neutron Stars
Evgeni E. Kolomeitsev(Matej Bel University, Banska Bystrica, Slovakia)
![Page 2: Neutrino Processes in Neutron Stars Evgeni E. Kolomeitsev (Matej Bel University, Banska Bystrica, Slovakia)](https://reader030.fdocuments.net/reader030/viewer/2022032805/56649ef55503460f94c091a4/html5/thumbnails/2.jpg)
What can we learn from neutron stars about processes in dense matter?
Data: star temperatures and agesInterpretation: star coolingTheory: ns cooling in a nutshell luminosity of basic reactionsProblems: one scenario for all data points
How to calculate nuclear reactions in dense medium?
Green’s function methodFermi liquid approachquasiparticles and effective charges
Fermi liquid approach for superfluid medium
anomalous Green’s functionsconservation laws and Ward Identity
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Northern hemisphere
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~10 km
density increase
Nuclei and electronsNeutron-rich nuclei and electronsNuclei, electrons and neutrons
neutrons, protons, electrons, muons
Exotics:hyperons,meson-condensates,quark matter
..a little beacon
fastly rotating magnetized body
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equation of state of dense matter
We want to learn about properties of microscopic excitations in dense matter
integral quantity
phase transitionschanged in degrees of freedom
How to look inside the NS?
mass, size, dynamics of SN explosion
How to study response function of the NS?
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important for supernova
At temperatures smaller than the opacity temperature (Topac~1-few MeV)mean free path of neutrinos and antineutrinos is larger than the neutron star radius
white body radiation problem
At temperatures T>Topac
neutrino transport problem
After >105 yr –black body radiation of photons
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debris of supernova explosion;accreted “nuclear trash”
[Yakovlev et al., A&A 417, 169]
M=1.4 Msol
R=10 km
internal T
external TText depends on envelop composition
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rotation frequency
for non-accreting systems, period increases with time
power-law spin-down braking index
for magnetic dipole spin-down n=3
period
“spin-down age"
2) pulsar speed and position w.r. to the geometric center of the associated SNR
1) age of the associated SNR 3) historical events
Crab : 1054 ADCassiopeia A: 1680 ADTycho’s SN: 1572 AD
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• EoS
• Cooling scenario [neutrino production]
Given:
Cooling curve
Mass of NS
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intermediate cooling
rapid cooling
How to describe all groups within one cooling scenario?
slow cooling
3 groups:
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neutron star is transparent for neutrino
CV – heat capacity, L - luminosity
each leg on a Fermi surface / T
neutrino phase space neutrino energy
emissivity
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Cooling: role of crust and interior?
most important are reactions in the interior
(The baryon density is where n0 is the nuclear saturation density)
one-nucleon reactions:
two-nucleon reactions:
direct URCA (DU)
modified URCA (MU)
nucleon bremsstrahlung (NB)
~T6
~T8
URCA=Gamow’s acronym for “Un-Recordable Coolant Agent”
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external temperature
star is too hot;crust is not formed
heat transport thru envelop
black body radiation
1 yr ' 3 ¢107s
“memory” loss
crust is formed
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volume neutrino radiation
DU:
MU:
neutrino cooling
photon cooling
Tn
DATA
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Low-energy weak interaction of nucleons
nucleon current lepton current
effective weak coupling constant
Cabibbo angle
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lepton current
nucleon current
Weinberg’s Lagrangian:
Note 1/2 in neutral channel, since Z boson is neutral and W is charged!
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ONE-NUCLEON PROCESSDIRECT URCA
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emissivity:
matrix element
traces over lepton (l) and nucleon (n) spins
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simplifications for
phase space integration
angle integration
triangle inequality critical condition
on Fermi surfaces
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since the integration over energy goes from - to + and
under integral we can replace
energy integration
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proton concentration > 11-14%
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energy-momentum conservation
requires
processes on neutral currents are forbidden!
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assume e reaches m Bose condensate of pions
neutrons in both initial and final states
k=(m,0)
energy-momentum conservation is easily fulfilled
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condensate amplitude
Migdal’s pion condensate k=(,kc): <m, kc» pF,e p-wave condensate
Kaon condensate processes yield a smaller contribution
All “exotic” processes start only when the density exceeds some critical density
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TWO-NUCLEON PROCESSESMODIFIED URCA
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Friman & Maxwell AJ (1979)
(3)(1)
(4)(2)
k
Additionally one should take into account exchange reactions (identical nucleons)
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Emissivity:
s=2 is symmetry factor. Reactions with the electron in an initial state yield extra factor 2.
Finally
Coherence: only axial-vector term contributes (!) whereas for PU processes both vector and axial-vector terms contribute
due to exchange reactions
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But masses of NSare not close to each others
[Blaschke, Grigorian, Voskresensky A&A 424 (2004) 979]
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Klähn et al. PRC 74, 035802 (2006)
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SUPERFLUID MATTER
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A
2-n
sepa
ratio
n en
ergy
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attraction
repulsionHebeler, Schwenk, and Friman, PLB 648 (2007) 176
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U. Lombardo and H.-J. Schulze, astro-ph/0012209
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1ns for neutrons
[Kaminker, Yakovlev, Gnedin,A&A 383 (2002) 1076]
1p for protons
HSF
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For the s-wave paring
for HDD EoS from [Blaschke, Grigorian, Voskresnesky PRC 88, 065805(2013)]
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unpaired fermions
paired fermions
Excited state
pair breaking
“exciton”
Ground state
pairing gap
excitation spectrum emission spectrum
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In superfluid (T<Tc<0.1-1 MeV) all two-nucleon processes are suppressed by factor exp(-2/T)
new “quasi”-one-nucleon-like processes (one-nucleon phase space volume) become permitted
[Flowers, Ruderman, Sutherland, AJ 205 (1976), Voskresensky& Senatorov, Sov. J. Nucl. Phys. 45 (1987) ]paired nucleon
un-paired nucleon
[ Voskresensky, Senatorov, Sov. J. Nucl. Phys. 45 (1987); Senatorov, Voskresensky, Phys. Lett. B184 (1987); Voskresensky astro-ph/0101514 ]nn is neutron gap
not as in Flowers et al. (1976)
Naively one expect the emissivity of p p to be suppressed by extra cV2~0.006 factor.
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[Page, Geppert, Weber , NPA 777, 497 (2006)]
pair breaking and formation (PBF)processes are important!
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standard
exotic
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How to calculate nuclear reactions in dense medium?
Green’s function methodFermi liquid approachquasiparticles and effective charges