gamma-ray burst polarization
DESCRIPTION
Gamma-Ray Burst Polarization. Kenji TOMA. (Kyoto U/NAOJ). Collaborators are:. Bing Zhang (Nevada U), Taka Sakamoto (NASA), POET team Ryo Yamazaki, Kunihito Ioka, Takashi Nakamura. GRB polarization. One of the GRB frontiers is polarization observations!. - PowerPoint PPT PresentationTRANSCRIPT
Gamma-Ray Burst Polarization
Kenji TOMA
(Kyoto U/NAOJ)
Collaborators are:
Bing Zhang (Nevada U), Taka Sakamoto (NASA), POET team
Ryo Yamazaki, Kunihito Ioka, Takashi Nakamura
GRB polarization
One of the GRB frontiers is polarization observations!
The GRB mechanism has been studied mainly through light curves and spectra so far.
Measuring multi-wavelength polarization can give us much new information.
k
B
e
GRB polarization: current status
Central engine
Relativistic jet
Burst Afterglow
(Synchrotron emission)
GRB polarization has been detected only in the late, optical afterglow.
L,opt ~ 1-3 %
~ 10 sec
~ 80 +- 20 %(Coburn & Buggs 03) This result is quite controversial.
Near future prospectsWe will obtain the multi-wavelength polarizations in the near future.
=> X-ray and gamma-ray pol
Many satellites are proposed to operate from about 2010.
POET (USA), PoGO (USA, Japan), XPOL (Europe), POLAR (Europe), Polaris (Japan)
POlarimeters for Energetic Transients=> (early) optical pol
Kanata (Japan) and Liverpool (UK) can detect early (>~a few minutes) optical polarization.
=> Radio pol
ALMA (USA, Japan, Europe) is planned to operate from about 2010.
What can be explored(1) Emission mechanism
Synchrotron emission?
Compton scattering?
Thermal (photospheric) emission?
(2) Geometry of source
Magnetic field configuration
Jet? Spherical outflow?
(3) Composition of source
Electron energy distribution
Electron-proton? Electron-positron? Polarization is changed through the source.
=> Particle acceleration, Jet acceleration
Afterglow Polarization
Afterglow polarizationThe (late) afterglow is widely explained as due to synchrotron emission of electrons accelerated in the external shock.
Shocked fluid
Accelerated electrons
Strong magnetic field
k
B
e
We have obtained some implications for the magnetic field configuration in the shocked fluid from the optical polarimetry. The field configuration is important for particle acceleration.
(Meszaros & Rees 97; Sari et al. 98)
Electron energy distribution
L,opt ~ 1-3 %
L ~ 70%
The magnetic field is not perfectly ordered.
Optical afterglow
Large-scale random field, or small-scale random field?
Shocked fluid
Accelerated electrons
Strong magnetic field
Ordered field
Small-scale random field caseIt is possible that the field is generated by some plasma instabilities in the collisionless shocks. In this case, the field may be coherent on tiny scales (~106cm).
local polarization survives.
GRB jet
The visible angular size is ~-1 because of the beaming effect. can be observed around when -1 ~ j. Pola
rization angle will change by 90 degrees.
(Medvedev & Loeb 99; Sari 99; Ghisellini & Lazzati 99)
Large-scale random field
GRB jet
Visible region
To reproduce the optical detection, N ~ 103. (coherence length ~ 1013cm)
If the strong field is generated by macroscopic inhomogeneity (e.g., vorticity), it is coherent on large scales.
In this case, polarization should be subject to erratic variations of polarization angle on dynamical time scales.
(Sironi & Goodman 07; Gruzinov & Waxman 99)
Observational resultsGRB 020813: smoothest light curve
GRB 030329: least smooth light curve
Change of polarization angle by 90 degrees is not seen.
Erratic variation of polarization angle on dynamical time scales. Large-scale random field is suggested.
Early observations are crucial!
L,opt < 8% (t ~ 203 sec)(Mundell et al. 07)
Radio afterglow
0.5
2
1/3
optical
-(p-1)/2
radioVLA ALMA
has not be detected in the radio band, although the synchrotron is little dependent on frequency.
This seems because the self-absorption frequency is typically in the VLA band.
a
In the frequencies lower than the self-absorption frequency, the radiation is strongly coupled to the particles, and is similar to blackbody radiation.
~1 day
ALMA!
Radio afterglow: plasma effects
+ =
The radio polarimetry can be used to diagnose plasma composition in the shocked region, because plasma effects are stronger in lower frequencies.
Faraday rotation effect
Faraday depolarization
Two natural modes with different phase velocities
The polarization plane rotates.
’
”
Linear polarization cancels out.
(Sazonov 69; Matsumiya & Ioka 03)
Efficiency of acceleration
(KT, Ioka, Nakamura 08)
1-f f
It is possible that only a small fraction f of electrons are accelerated.
n’ = n/f, E’ = E/f
(Eichler & Waxman 05)
The true total energy is larger than previously estimated!
Observed afterglow
Depolarization <=> existence of non-accelerated electrons, large-scale coherent field
Burst Polarization
Burst polarization
The emission mechanism of the burst is highly debated. Measuring the burst polarization is a powerful tool.
Synchrotron emission?
Synchrotron Self-Compton scattering?
Bulk Compton scattering?
Photospheric emission?
Jitter radiation?
Burst polarization
Synchrotron with ordered field (Granot 03; Lyutikov et al. 03)
Synchrotron with small-scale random field (Granot 03; Nakar et al. 03)
Bulk Compton scattering (Lazzati et al. 04)
B B
Seed optical photon
It has been shown that high degree of polarization can be obtained in the following 3 models.
Visible region
Statistical approachPOET satellite is designed to detect ~ 100 bursts in 50-500 keV in 2 yr operation. The 3 models can be distinguished.
Monte Carlo simulation (KT et al. in prep.)
All the bursts have high in the ordered field synchrotron model.
distributions in the random field synchrotron model and in the bulk Compton model, but near 100% is possible in the bulk Compton model.
Polarization spectrum
ma
>10%?
V
If the magnetic field is ordered on large scales, cooled electrons will affect . (KT in prep.)
Faraday depolarization
Synchrotron model
Photospheric emission model
~ 1
Progenitor star
Seed blackbody emission
Compton up-scattered
Compton down-scattered
polarizedpolarized unpolarized
The spectral peak might be produced by the photospheric blackbody radiation. (e.g., Ryde et al., Thompson et al., Ioka et al.)
This model shows a unique spectrum.
SummaryWe will obtain the multi-wavelength polarizations in the near future. Measuring time- and energy-dependent polarization can reveal many aspects which are not available with the more traditional light curves and spectra.Measuring early optical polarization is crucial for determining the magnetic field configuration in the external shock. The electron energy distribution (and even the total explosion energy) can be probed by the radio polarimetry.
The X-ray and -ray polarimetry is powerful tool to understand the burst emission mechanism, magnetic field configuration in the jet, and the composition of the jet.