simulations of ultra-high energy cosmic rays in the local ...simulations of ultra-high energy cosmic...
TRANSCRIPT
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Simulations of ultra-high Energy CosmicRays in the local Universe and the origin of
Cosmic Magnetic Fields
Stefan Hackstein
1st year PhD student @
Supervisors: Marcus Bruggen, Franco Vazza
Collaborators: Gunter Sigl, Andrej Dundovic, Jenny G. Sorce, Stefan Gottlober
2017-10-17
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Overview
Ultra-high Energy Cosmic Rays &Extragalactic Magnetic FieldsMagneto-GenesisMagnetic Environment
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Outline
Ultra-high Energy Cosmic Rays &Extragalactic Magnetic Fields
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Ultra-high Energy Cosmic Rays
W. Hanlon, Utah
charged Nuclei
gyro radius rg = E/eZB
low energy E < 1018eV
galactic originsources: most likelyremnants of SNeBlasi 2013
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Ultra-high Energy Cosmic Rays
ASPERA/Novapix/L. Bret
charged Nuclei
gyro radius rg = E/eZB
low energy E < 1018eV
galactic originsources: most likelyremnants of SNeBlasi 2013
high energy E > 1018eV
rg > RMW ⇒extragalactic originsources: unknownGRB? AGN? RG? ...
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Extragalactic sources
Fermi-Acceleration:multiple reflectionsat MF shock front⇒ gain energy ∝ βshock
Hillas criterion:2× rg < RSource
⇒ Emax ∼ B · RSource)Hillas 1984
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Extra-Galactic Magnetic Fields
measure EGMFs with UHECRs?constrain seeding processes?
Franco Vazza, Bologna
Voids (≈ 80% of volume)
B0 ≤ 0.55− 5.6 nGPlanck 2015
Bvoid ≥ 10−16GNeronov & Vovk 2010
huge range of uncertainty
LSS (≈ 20% of volume)
galaxies ∼ 5− 15 µG
clusters ∼ µGfilaments . 0.1µG
Beck+ 2016, Feretti+ 2012,Brown+ 2017
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Extra-Galactic Magnetic Fields
measure EGMFs with UHECRs?constrain seeding processes?
Franco Vazza, Bologna
Voids (≈ 80% of volume)
B0 ≤ 0.55− 5.6 nGPlanck 2015
Bvoid ≥ 10−16GNeronov & Vovk 2010
huge range of uncertainty
LSS (≈ 20% of volume)
galaxies ∼ 5− 15 µG
clusters ∼ µGfilaments . 0.1µG
cluster outskirts
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Combine
ENZO(large MHD cosmological simulations with AMR)
CRPropa(propagation of UHECRs in 3D models of EGMF)
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Outline
Magneto-Genesis
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MHD models
density perturbations: constrained ICs (Sorce+ 2015)seed magnetic field:
primordial: B0 = 10−9 G, z = 60astrophysical:magnetic feedback from AGN, z < 4 (B0 = 10−20 G)
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Full Sky Energy Spectrum
GZK ⇒ & 100EeV determined by nearby sources
independent of Magnetic Fields(Propagation Theorem, Aloisio & Berezinsky 2004)
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Full Sky Composition
Photo-disintegration ⇒ . 10EeV dominated by remnants
NAZ + γ → NA−1
Z−1 + p+∆E
E=
∆A
A(Epele & Roulet 1998)
independent of Magnetic Fields
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Search for anisotropyin nergy spectrum (or composition)
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Angular Power spectrum
Flux: Φ(~n) =∑lm
almYlm(~n)
Angular Power Spectrum:
Cl =1
2l + 1
∑m
|alm|2
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Angular Power spectrum
C2 & 100EeV independent of MFdetermined by sources
⇒ UHECR astronomy possible (cf. Dolag+ 2004)
(Hackstein et al. in sub.)
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Angular Power spectrum
Recent observation of dipole by Pierre Auger Coll. 2017
Amplitude: 0.5%Significance: & 5σ
Time has come to identify sources?
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Angular Power spectrum
magnetic fields “wash out” anisotropydifferent models of EGMF → similar result⇒ no info on magneto-genesis
(Hackstein et al. in sub.)
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Outline
Magnetic Environment
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MHD models
unconstrained, 18 MW observers (Hackstein et al. 2016)primordial: B0 = 10−13 − 10−8 G, z = 60and astrophysical:magnetic feedback from AGN, z < 1
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Angular Power spectrum
strong magnetic dipole ⇒ deflection ⊥ stronger than ||⇒ increased travel time ⇒ change in energy spectrum
⇒ quadrupole anisotropy13 / 15
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Angular Power spectrum
!!! Preliminary !!!
linear relation quadrupole C2 ∼ magnetic dipole within . 5Mpclimit strength of dipole component around MW?
(Hackstein, Dundovic & Avola in prep.)
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Conclusions
ballistic propagation & 80EeV⇒ UHECR astronomy possible
DIfferent seeding models indistinguishable⇒ No info on magneto-genesis
strong magnetic dipole ⇒ stronger ⊥ deflection⇒ change in energy spectrum / composition⇒ Limit dipole component in vicinity of MW
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Artefacts
effect of finite observer
artificial deflectionideal observer
finite observer
magnetized observer