TY - JOUR
T1 - Generalized compactness limit from an arbitrary viewing angle
AU - Matsumoto, Tatsuya
AU - Nakar, Ehud
AU - Piran, Tsvi
N1 - Publisher Copyright:
© 2019 The Author(s) Published by Oxford University Press on behalf of the Royal Astronomical Society.
PY - 2019/6/1
Y1 - 2019/6/1
N2 - A γ -ray source must have a limited optical depth to pair production. This simple condition, called compactness, implies that gamma-ray bursts (GRBs) must involve a highly relativistic motion (τ≳ 100) giving the first and most important clue on their nature. So far, this condition has been discussed under the assumption that the γ -ray sources are viewed on-axis, that is, by an observer within the beaming cone of the relativistic source. Recently, following the detection of the weak short GRB 170817A, an extensive interest arose in the possibility that some γ -ray sources are viewed off-axis. We generalize here the compactness formalism for an arbitrary viewing angle taking several possible opacity processes and γ -ray spectra into account. We find that for given observables (peak luminosity, temporal variability, and spectra) the minimal Lorentz factor, τmin, is obtained, as expected, for an on-axis observer. More remarkably we find that compactness dictates also a maximal viewing angle, θmax ∼ 1/2τmin. Our limit implies for regular GRBs a very small allowed viewing angle (≲10-2 rad), making it extremely unlikely that they are viewed off-axis. For GRB 170817A we confirm earlier results that rule out the possibility that the observed γ -rays were seen by an on-axis observer as a regular short GRB. The short GRB 150101B was also suggested to be an off-axis event. We show that its maximal viewing angle ≲0.05 rad, which is inconsistent with the off-axis model. Finally we show that for low-luminosity GRBs, compactness does not exclude by itself an off-axis model, but when combined with other consideration this option is strongly disfavoured.
AB - A γ -ray source must have a limited optical depth to pair production. This simple condition, called compactness, implies that gamma-ray bursts (GRBs) must involve a highly relativistic motion (τ≳ 100) giving the first and most important clue on their nature. So far, this condition has been discussed under the assumption that the γ -ray sources are viewed on-axis, that is, by an observer within the beaming cone of the relativistic source. Recently, following the detection of the weak short GRB 170817A, an extensive interest arose in the possibility that some γ -ray sources are viewed off-axis. We generalize here the compactness formalism for an arbitrary viewing angle taking several possible opacity processes and γ -ray spectra into account. We find that for given observables (peak luminosity, temporal variability, and spectra) the minimal Lorentz factor, τmin, is obtained, as expected, for an on-axis observer. More remarkably we find that compactness dictates also a maximal viewing angle, θmax ∼ 1/2τmin. Our limit implies for regular GRBs a very small allowed viewing angle (≲10-2 rad), making it extremely unlikely that they are viewed off-axis. For GRB 170817A we confirm earlier results that rule out the possibility that the observed γ -rays were seen by an on-axis observer as a regular short GRB. The short GRB 150101B was also suggested to be an off-axis event. We show that its maximal viewing angle ≲0.05 rad, which is inconsistent with the off-axis model. Finally we show that for low-luminosity GRBs, compactness does not exclude by itself an off-axis model, but when combined with other consideration this option is strongly disfavoured.
KW - gamma-ray burst: general
KW - gamma-rays : general.
KW - gammaray burst: individual GRB 180817A, GRB 150101B
KW - gravitationalwaves
KW - relativistic processes
UR - http://www.scopus.com/inward/record.url?scp=85067932123&partnerID=8YFLogxK
U2 - 10.1093/mnras/stz923
DO - 10.1093/mnras/stz923
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AN - SCOPUS:85067932123
SN - 0035-8711
VL - 486
SP - 1563
EP - 1573
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 2
ER -