Exploring the Morphology and Origins of the 4C 38.41 Jet

J. C. Algaba; B. Rani; S. S. Lee; M. Kino; Jongho Park; Jae Young Kim

doi:10.3847/1538-4357/ab4b45

Exploring the Morphology and Origins of the 4C 38.41 Jet

J. C. Algaba, B. Rani, S. S. Lee, M. Kino, Jongho Park, Jae Young Kim

School of Earth System Sciences

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

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Abstract

We study the properties of the innermost jet of the flat spectrum radio quasar 1633+382 (4C 38.41) based on very long baseline interferometry (VLBI) data from the radio monitoring observations of the Boston University VLBI program at 43 GHz. Analysis of the components suggests a semi-parabolic jet geometry with jet radius R following the relation R ∝ r ^0.7 with distance r, with indications of a jet geometry break toward a conical geometry. Brightness temperature falls with distance following T _B ∝ r ^-2.1. Combining this information, magnetic field and electron densities are found to fall along the jet as B ∝ r ^-1.5 and n ∝ r ^-1.1, respectively, suggesting that the magnetic configuration in the jet may be dominated by the poloidal component. Our analysis of the jet structure suggests that the innermost jet regions do not follow a ballistic trajectory and, instead, match a sinusoidal morphology, which could be due to jet precession from a helical pattern or Kelvin-Helmholtz instabilities.

Original language	English
Article number	85
Journal	Astrophysical Journal
Volume	886
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ab4b45
State	Published - 1 Dec 2019

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title = "Exploring the Morphology and Origins of the 4C 38.41 Jet",

abstract = "We study the properties of the innermost jet of the flat spectrum radio quasar 1633+382 (4C 38.41) based on very long baseline interferometry (VLBI) data from the radio monitoring observations of the Boston University VLBI program at 43 GHz. Analysis of the components suggests a semi-parabolic jet geometry with jet radius R following the relation R ∝ r 0.7 with distance r, with indications of a jet geometry break toward a conical geometry. Brightness temperature falls with distance following T B ∝ r -2.1. Combining this information, magnetic field and electron densities are found to fall along the jet as B ∝ r -1.5 and n ∝ r -1.1, respectively, suggesting that the magnetic configuration in the jet may be dominated by the poloidal component. Our analysis of the jet structure suggests that the innermost jet regions do not follow a ballistic trajectory and, instead, match a sinusoidal morphology, which could be due to jet precession from a helical pattern or Kelvin-Helmholtz instabilities.",

author = "Algaba, {J. C.} and B. Rani and Lee, {S. S.} and M. Kino and Jongho Park and Kim, {Jae Young}",

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doi = "10.3847/1538-4357/ab4b45",

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T1 - Exploring the Morphology and Origins of the 4C 38.41 Jet

AU - Algaba, J. C.

AU - Rani, B.

AU - Lee, S. S.

AU - Kino, M.

AU - Park, Jongho

AU - Kim, Jae Young

PY - 2019/12/1

Y1 - 2019/12/1

N2 - We study the properties of the innermost jet of the flat spectrum radio quasar 1633+382 (4C 38.41) based on very long baseline interferometry (VLBI) data from the radio monitoring observations of the Boston University VLBI program at 43 GHz. Analysis of the components suggests a semi-parabolic jet geometry with jet radius R following the relation R ∝ r 0.7 with distance r, with indications of a jet geometry break toward a conical geometry. Brightness temperature falls with distance following T B ∝ r -2.1. Combining this information, magnetic field and electron densities are found to fall along the jet as B ∝ r -1.5 and n ∝ r -1.1, respectively, suggesting that the magnetic configuration in the jet may be dominated by the poloidal component. Our analysis of the jet structure suggests that the innermost jet regions do not follow a ballistic trajectory and, instead, match a sinusoidal morphology, which could be due to jet precession from a helical pattern or Kelvin-Helmholtz instabilities.

AB - We study the properties of the innermost jet of the flat spectrum radio quasar 1633+382 (4C 38.41) based on very long baseline interferometry (VLBI) data from the radio monitoring observations of the Boston University VLBI program at 43 GHz. Analysis of the components suggests a semi-parabolic jet geometry with jet radius R following the relation R ∝ r 0.7 with distance r, with indications of a jet geometry break toward a conical geometry. Brightness temperature falls with distance following T B ∝ r -2.1. Combining this information, magnetic field and electron densities are found to fall along the jet as B ∝ r -1.5 and n ∝ r -1.1, respectively, suggesting that the magnetic configuration in the jet may be dominated by the poloidal component. Our analysis of the jet structure suggests that the innermost jet regions do not follow a ballistic trajectory and, instead, match a sinusoidal morphology, which could be due to jet precession from a helical pattern or Kelvin-Helmholtz instabilities.

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Exploring the Morphology and Origins of the 4C 38.41 Jet

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