Periodic structure in the megaparsec-scale jet of pks 0637-752

L. E.H. Godfrey; J. E.J. Lovell; S. Burke-Spolaor; R. Ekers; G. V. Bicknell; M. Birkinshaw; D. M. Worrall; D. L. Jauncey; D. A. Schwartz; H. L. Marshall; J. Gelbord; E. S. Perlman; M. Georganopoulos

doi:10.1088/2041-8205/758/2/L27

Periodic structure in the megaparsec-scale jet of pks 0637-752

L. E.H. Godfrey^*, J. E.J. Lovell, S. Burke-Spolaor, R. Ekers, G. V. Bicknell, M. Birkinshaw, D. M. Worrall, D. L. Jauncey, D. A. Schwartz, H. L. Marshall, J. Gelbord, E. S. Perlman, M. Georganopoulos

^*Corresponding author for this work

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

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Abstract

We present 18GHz Australia Telescope Compact Array imaging of the megaparsec-scale quasar jet PKS 0637-752 with angular resolution 058. We draw attention to a spectacular train of quasi-periodic knots along the inner 11″ of the jet, with average separation 1.1 arcsec (7.6kpc projected). We consider two classes of model to explain the periodic knots: those that involve a static pattern through which the jet plasma travels (e.g., stationary shocks) and those that involve modulation of the jet engine. Interpreting the knots as re-confinement shocks implies the jet kinetic power Q _jet 10 ⁴⁶ergs^-1, but the constant knot separation along the jet is not expected in a realistic external density profile. For models involving modulation of the jet engine, we find that the required modulation period is 2 × 10³ yr < τ < 3 × 10⁵ yr. The lower end of this range is applicable if the jet remains highly relativistic on kiloparsec scales, as implied by the IC/CMB model of jet X-ray emission. We suggest that the periodic jet structure in PKS 0637-752 may be analogous to the quasi-periodic jet modulation seen in the microquasar GRS 1915+105, believed to result from limit cycle behavior in an unstable accretion disk. If variations in the accretion rate are driven by a binary black hole, the predicted orbital radius is 0.7 pc ≲ a ≲ 30 pc, which corresponds to a maximum angular separation of 0.1-5 mas.

Original language	English
Article number	L27
Journal	Astrophysical Journal Letters
Volume	758
Issue number	2
DOIs	https://doi.org/10.1088/2041-8205/758/2/L27
Publication status	Published - 20 Oct 2012

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Godfrey, L. E. H., Lovell, J. E. J., Burke-Spolaor, S., Ekers, R., Bicknell, G. V., Birkinshaw, M., Worrall, D. M., Jauncey, D. L., Schwartz, D. A., Marshall, H. L., Gelbord, J., Perlman, E. S., & Georganopoulos, M. (2012). Periodic structure in the megaparsec-scale jet of pks 0637-752. Astrophysical Journal Letters, 758(2), Article L27. https://doi.org/10.1088/2041-8205/758/2/L27

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title = "Periodic structure in the megaparsec-scale jet of pks 0637-752",

abstract = "We present 18GHz Australia Telescope Compact Array imaging of the megaparsec-scale quasar jet PKS 0637-752 with angular resolution 058. We draw attention to a spectacular train of quasi-periodic knots along the inner 11″ of the jet, with average separation 1.1 arcsec (7.6kpc projected). We consider two classes of model to explain the periodic knots: those that involve a static pattern through which the jet plasma travels (e.g., stationary shocks) and those that involve modulation of the jet engine. Interpreting the knots as re-confinement shocks implies the jet kinetic power Q jet 10 46ergs-1, but the constant knot separation along the jet is not expected in a realistic external density profile. For models involving modulation of the jet engine, we find that the required modulation period is 2 × 103 yr < τ < 3 × 105 yr. The lower end of this range is applicable if the jet remains highly relativistic on kiloparsec scales, as implied by the IC/CMB model of jet X-ray emission. We suggest that the periodic jet structure in PKS 0637-752 may be analogous to the quasi-periodic jet modulation seen in the microquasar GRS 1915+105, believed to result from limit cycle behavior in an unstable accretion disk. If variations in the accretion rate are driven by a binary black hole, the predicted orbital radius is 0.7 pc ≲ a ≲ 30 pc, which corresponds to a maximum angular separation of 0.1-5 mas.",

keywords = "galaxies: active, galaxies: jets, quasars: individual (PKS0637-752)",

author = "Godfrey, {L. E.H.} and Lovell, {J. E.J.} and S. Burke-Spolaor and R. Ekers and Bicknell, {G. V.} and M. Birkinshaw and Worrall, {D. M.} and Jauncey, {D. L.} and Schwartz, {D. A.} and Marshall, {H. L.} and J. Gelbord and Perlman, {E. S.} and M. Georganopoulos",

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doi = "10.1088/2041-8205/758/2/L27",

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T1 - Periodic structure in the megaparsec-scale jet of pks 0637-752

AU - Godfrey, L. E.H.

AU - Lovell, J. E.J.

AU - Burke-Spolaor, S.

AU - Ekers, R.

AU - Bicknell, G. V.

AU - Birkinshaw, M.

AU - Worrall, D. M.

AU - Jauncey, D. L.

AU - Schwartz, D. A.

AU - Marshall, H. L.

AU - Gelbord, J.

AU - Perlman, E. S.

AU - Georganopoulos, M.

PY - 2012/10/20

Y1 - 2012/10/20

N2 - We present 18GHz Australia Telescope Compact Array imaging of the megaparsec-scale quasar jet PKS 0637-752 with angular resolution 058. We draw attention to a spectacular train of quasi-periodic knots along the inner 11″ of the jet, with average separation 1.1 arcsec (7.6kpc projected). We consider two classes of model to explain the periodic knots: those that involve a static pattern through which the jet plasma travels (e.g., stationary shocks) and those that involve modulation of the jet engine. Interpreting the knots as re-confinement shocks implies the jet kinetic power Q jet 10 46ergs-1, but the constant knot separation along the jet is not expected in a realistic external density profile. For models involving modulation of the jet engine, we find that the required modulation period is 2 × 103 yr < τ < 3 × 105 yr. The lower end of this range is applicable if the jet remains highly relativistic on kiloparsec scales, as implied by the IC/CMB model of jet X-ray emission. We suggest that the periodic jet structure in PKS 0637-752 may be analogous to the quasi-periodic jet modulation seen in the microquasar GRS 1915+105, believed to result from limit cycle behavior in an unstable accretion disk. If variations in the accretion rate are driven by a binary black hole, the predicted orbital radius is 0.7 pc ≲ a ≲ 30 pc, which corresponds to a maximum angular separation of 0.1-5 mas.

AB - We present 18GHz Australia Telescope Compact Array imaging of the megaparsec-scale quasar jet PKS 0637-752 with angular resolution 058. We draw attention to a spectacular train of quasi-periodic knots along the inner 11″ of the jet, with average separation 1.1 arcsec (7.6kpc projected). We consider two classes of model to explain the periodic knots: those that involve a static pattern through which the jet plasma travels (e.g., stationary shocks) and those that involve modulation of the jet engine. Interpreting the knots as re-confinement shocks implies the jet kinetic power Q jet 10 46ergs-1, but the constant knot separation along the jet is not expected in a realistic external density profile. For models involving modulation of the jet engine, we find that the required modulation period is 2 × 103 yr < τ < 3 × 105 yr. The lower end of this range is applicable if the jet remains highly relativistic on kiloparsec scales, as implied by the IC/CMB model of jet X-ray emission. We suggest that the periodic jet structure in PKS 0637-752 may be analogous to the quasi-periodic jet modulation seen in the microquasar GRS 1915+105, believed to result from limit cycle behavior in an unstable accretion disk. If variations in the accretion rate are driven by a binary black hole, the predicted orbital radius is 0.7 pc ≲ a ≲ 30 pc, which corresponds to a maximum angular separation of 0.1-5 mas.

KW - galaxies: active

KW - galaxies: jets

KW - quasars: individual (PKS0637-752)

UR - http://www.scopus.com/inward/record.url?scp=84867250388&partnerID=8YFLogxK

U2 - 10.1088/2041-8205/758/2/L27

DO - 10.1088/2041-8205/758/2/L27

M3 - Article

SN - 2041-8205

VL - 758

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 2

M1 - L27

ER -

Periodic structure in the megaparsec-scale jet of pks 0637-752

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