Cooling off with a kilonova - lower limit on the expansion velocity of GW170817

Itai Linial; Re'em Sari

doi:10.1093/mnras/sty3170

Cooling off with a kilonova - lower limit on the expansion velocity of GW170817

Itai Linial, Re'em Sari

Racah Institute of Physics

The Hebrew University of Jerusalem

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

Abstract

GW170817 was the first detection of a binary neutron star merger via gravitational waves. The event was observed over a wide range of the electromagnetic spectrum, revealing a thermal kilonova dominating the optical signal during the first ∼15 days, and a non-thermal synchrotron emission that has continued to rise ∼200 days post-merger, dominating the radio and X-ray emission. At early times, when the kilonova is still dominant, the synchrotron emitting electrons can efficiently cool by up-scattering the kilonova photos through inverse-Compton. Yet, the cooling frequency is not observed up to the X-ray band. This can only be explained if the source is moving at least at a mildly relativistic velocity. We find a lower limit on the source's bulk Lorentz factor of Γ > 2.1 at 9 days. This lower limit is model independent and relies directly on the observed quantities, providing additional robust evidence to the relativistic motion in this event at early times.

Original language	English
Pages (from-to)	624-627
Number of pages	4
Journal	MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume	483
Issue number	1
DOIs	https://doi.org/10.1093/mnras/sty3170
State	Published - 11 Feb 2019

Keywords

Gravitational waves
Radiation mechanisms: general

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/sty3170

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title = "Cooling off with a kilonova - lower limit on the expansion velocity of GW170817",

abstract = "GW170817 was the first detection of a binary neutron star merger via gravitational waves. The event was observed over a wide range of the electromagnetic spectrum, revealing a thermal kilonova dominating the optical signal during the first ∼15 days, and a non-thermal synchrotron emission that has continued to rise ∼200 days post-merger, dominating the radio and X-ray emission. At early times, when the kilonova is still dominant, the synchrotron emitting electrons can efficiently cool by up-scattering the kilonova photos through inverse-Compton. Yet, the cooling frequency is not observed up to the X-ray band. This can only be explained if the source is moving at least at a mildly relativistic velocity. We find a lower limit on the source's bulk Lorentz factor of Γ > 2.1 at 9 days. This lower limit is model independent and relies directly on the observed quantities, providing additional robust evidence to the relativistic motion in this event at early times.",

keywords = "Gravitational waves, Radiation mechanisms: general",

author = "Itai Linial and Re'em Sari",

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doi = "10.1093/mnras/sty3170",

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AU - Sari, Re'em

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N2 - GW170817 was the first detection of a binary neutron star merger via gravitational waves. The event was observed over a wide range of the electromagnetic spectrum, revealing a thermal kilonova dominating the optical signal during the first ∼15 days, and a non-thermal synchrotron emission that has continued to rise ∼200 days post-merger, dominating the radio and X-ray emission. At early times, when the kilonova is still dominant, the synchrotron emitting electrons can efficiently cool by up-scattering the kilonova photos through inverse-Compton. Yet, the cooling frequency is not observed up to the X-ray band. This can only be explained if the source is moving at least at a mildly relativistic velocity. We find a lower limit on the source's bulk Lorentz factor of Γ > 2.1 at 9 days. This lower limit is model independent and relies directly on the observed quantities, providing additional robust evidence to the relativistic motion in this event at early times.

AB - GW170817 was the first detection of a binary neutron star merger via gravitational waves. The event was observed over a wide range of the electromagnetic spectrum, revealing a thermal kilonova dominating the optical signal during the first ∼15 days, and a non-thermal synchrotron emission that has continued to rise ∼200 days post-merger, dominating the radio and X-ray emission. At early times, when the kilonova is still dominant, the synchrotron emitting electrons can efficiently cool by up-scattering the kilonova photos through inverse-Compton. Yet, the cooling frequency is not observed up to the X-ray band. This can only be explained if the source is moving at least at a mildly relativistic velocity. We find a lower limit on the source's bulk Lorentz factor of Γ > 2.1 at 9 days. This lower limit is model independent and relies directly on the observed quantities, providing additional robust evidence to the relativistic motion in this event at early times.

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Cooling off with a kilonova - lower limit on the expansion velocity of GW170817

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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