The effect of pair cascades on the high-energy spectral cut-off in gamma-ray bursts

Ramandeep Gill; Jonathan Granot

doi:10.1093/mnrasl/slx199

The effect of pair cascades on the high-energy spectral cut-off in gamma-ray bursts

Ramandeep Gill, Jonathan Granot

Physics

Open University of Israel

Research output: Contribution to journal › Article › peer-review

Abstract

The highly luminous and variable prompt emission in gamma-ray bursts (GRBs) arises in an ultra-relativistic outflow. The exact underlying radiative mechanism shaping its non-thermal spectrum is still uncertain, making it hard to determine the outflow's bulk Lorentz factor Γ. GRBs with spectral cut-off due to pair production (γγ → e⁺e^-) at energies E_c ≳ 10MeV are extremely useful for inferring Γ. We find that when the emission region has a high enough compactness, then as it becomes optically thick to scattering, Compton downscattering by non-relativistic e^±-pairs can shift the spectral cut-off energy well below the self-annihilation threshold, E_sa = Γ m_ec²/(1 + z). We treat this effect numerically and show that Γ obtained assuming E_c = E_sa can underpredict its true value by as much as an order of magnitude.

Original language	English
Pages (from-to)	L1-L5
Journal	Monthly Notices of the Royal Astronomical Society: Letters
Volume	475
Issue number	1
DOIs	https://doi.org/10.1093/mnrasl/slx199
State	Published - 21 Mar 2018

Keywords

Gamma-ray burst: general
Opacity
Plasmas
Radiative transfer
Relativistic processes

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnrasl/slx199

Cite this

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title = "The effect of pair cascades on the high-energy spectral cut-off in gamma-ray bursts",

abstract = "The highly luminous and variable prompt emission in gamma-ray bursts (GRBs) arises in an ultra-relativistic outflow. The exact underlying radiative mechanism shaping its non-thermal spectrum is still uncertain, making it hard to determine the outflow's bulk Lorentz factor Γ. GRBs with spectral cut-off due to pair production (γγ → e+e-) at energies Ec ≳ 10MeV are extremely useful for inferring Γ. We find that when the emission region has a high enough compactness, then as it becomes optically thick to scattering, Compton downscattering by non-relativistic e±-pairs can shift the spectral cut-off energy well below the self-annihilation threshold, Esa = Γ mec2/(1 + z). We treat this effect numerically and show that Γ obtained assuming Ec = Esa can underpredict its true value by as much as an order of magnitude.",

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doi = "10.1093/mnrasl/slx199",

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AU - Granot, Jonathan

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N2 - The highly luminous and variable prompt emission in gamma-ray bursts (GRBs) arises in an ultra-relativistic outflow. The exact underlying radiative mechanism shaping its non-thermal spectrum is still uncertain, making it hard to determine the outflow's bulk Lorentz factor Γ. GRBs with spectral cut-off due to pair production (γγ → e+e-) at energies Ec ≳ 10MeV are extremely useful for inferring Γ. We find that when the emission region has a high enough compactness, then as it becomes optically thick to scattering, Compton downscattering by non-relativistic e±-pairs can shift the spectral cut-off energy well below the self-annihilation threshold, Esa = Γ mec2/(1 + z). We treat this effect numerically and show that Γ obtained assuming Ec = Esa can underpredict its true value by as much as an order of magnitude.

AB - The highly luminous and variable prompt emission in gamma-ray bursts (GRBs) arises in an ultra-relativistic outflow. The exact underlying radiative mechanism shaping its non-thermal spectrum is still uncertain, making it hard to determine the outflow's bulk Lorentz factor Γ. GRBs with spectral cut-off due to pair production (γγ → e+e-) at energies Ec ≳ 10MeV are extremely useful for inferring Γ. We find that when the emission region has a high enough compactness, then as it becomes optically thick to scattering, Compton downscattering by non-relativistic e±-pairs can shift the spectral cut-off energy well below the self-annihilation threshold, Esa = Γ mec2/(1 + z). We treat this effect numerically and show that Γ obtained assuming Ec = Esa can underpredict its true value by as much as an order of magnitude.

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KW - Opacity

KW - Plasmas

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DO - 10.1093/mnrasl/slx199

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The effect of pair cascades on the high-energy spectral cut-off in gamma-ray bursts

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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