Large Kinetic Power in FRII Radio Jets

A.P. Marscher; C. Tadhunter; C.R. Kaiser; C.S. Reynolds; D. Marchesini; D.A. Clarke; D.A. Smith; G.V. Bicknell; Hirotaka Ito; J. Kataoka; J.H. Croston; J.L. Croston; J.P. Leahy; J.P. Leahy; M. Kino; M. Kino; M.C. Begelman; M.J. Hardcastle; M.J. Hardcastle; Motoki Kino; Naoki Isobe; Nozomu Kawakatu; R.A. Perley; Shoichi Yamada; Y. Shi

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Large Kinetic Power in FRII Radio Jets

Authors: A.P. Marscher
C. Tadhunter
C.R. Kaiser
C.S. Reynolds
D. Marchesini
D.A. Clarke
D.A. Smith
G.V. Bicknell
Hirotaka Ito
J. Kataoka
J.H. Croston
J.L. Croston
J.P. Leahy
J.P. Leahy
M. Kino
M. Kino
M.C. Begelman
M.J. Hardcastle
M.J. Hardcastle
Motoki Kino
Naoki Isobe
Nozomu Kawakatu
R.A. Perley
Shoichi Yamada
Y. Shi
Publication date: 26 July 2007
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We investigate the total kinetic powers (L_{j}) and ages (t_{age}) of powerful jets of four FR II radio sources (Cygnus A, 3C 223, 3C 284, and 3C 219) by the detail comparison of the dynamical model of expanding cocoons with observed ones. It is found that these sources have quite large kinetic powers with the ratio of L_{j} to the Eddington luminosity (L_{Edd}) resides in

0.02 <L_{j}/L_{Edd} <10

. Reflecting the large kinetic powers, we also find that the total energy stored in the cocoon (E_{c}) exceed the energy derived from the minimum energy condition (E_{min}):

2< E_{c}/E_{min} <160

. This implies that a large amount of kinetic power is carried by invisible components such as thermal leptons (electron and positron) and/or protons.Comment: 5 pages, accepted for publication in Astrophysics and Space Scienc

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