Discovery of carbon radio recombination lines in absorption towards Cygnus A

J.B.R. Oonk; R.J. van Weeren; F. Salgado; L.K. Morabito; A.G.G.M. Tielens; H.J.A. Rottgering; A. Asgekar; G.J. White; A. Alexov; J. Anderson; I.M. Avruch; F. Batejat; R. Beck; M.E. Bell; I. van Bemmel; Marinus Jan Bentum; G. Bernardi; P. Best; A. Bonafede; F. Breitling; M. Brentjens; J. Broderick; M. Brüggen; H.R. Butcher; B. Ciardi; J.E. Conway; A. Corstanje; F. de Gasperin; E. de Geus; M. Vos; S. Duscha; J. Eislöffel; D. Engels; J. van Enst; H. Falcke; R.A. Fallows; R. Fender; C. Ferrari; W. Frieswijk; M.A. Garrett; J. Griessmeier; J.P. Hamaker; T.E. Hassall; G. Heald; J.W.T. Hessels; M. Hoeft; A. Horneffer; A. van der Horst; M. Iacobelli; N.J. Jackson; E. Juette; A. Karastergiou; W. Klijn; J Kohler; V.I. Kondratiev; M. Kramer; M. Kuniyoshi; G. Kuper; J. van Leeuwen; P. Maat; G. Macario; G. Mann; S. Markoff; J.P. McKean; M. Mevius; J.C.A Miller-Jones; J.D. Mol; D.D. Mulcahy; H. Munk; M.J. Norden; E. Orrú; H. Paas; M. Pandey-Pommier; V.N. Pandey; R. Pizzo; A.G. Polatidis; W. Reich; A.M.M. Scaife; A. Schoenmakers; D. Schwarz; A. Shulevski; J. Sluman; O. Smirnov; C. Sobey; B.W. Stappers; M. Steinmetz; J. Swinbank; M. Tagger; Y. Tang; C. Tasse; S. ter Veen; S. Thoudam; C. Toribio; R. van Nieuwpoort; R. Vermeulen; C. Vocks; C. Vogt; R.A.M.J. Wijers; M.W. Wise; O. Wucknitz; S. Yatawatta; P. Zarka; A. Zensus

doi:10.1093/mnras/stt2158

Discovery of carbon radio recombination lines in absorption towards Cygnus A

J.B.R. Oonk, R.J. van Weeren, F. Salgado, L.K. Morabito, A.G.G.M. Tielens, H.J.A. Rottgering, A. Asgekar, G.J. White, A. Alexov, J. Anderson, I.M. Avruch, F. Batejat, R. Beck, M.E. Bell, I. van Bemmel, Marinus Jan Bentum, G. Bernardi, P. Best, A. Bonafede, F. BreitlingM. Brentjens, J. Broderick, M. Brüggen, H.R. Butcher, B. Ciardi, J.E. Conway, A. Corstanje, F. de Gasperin, E. de Geus, M. Vos, S. Duscha, J. Eislöffel, D. Engels, J. van Enst, H. Falcke, R.A. Fallows, R. Fender, C. Ferrari, W. Frieswijk, M.A. Garrett, J. Griessmeier, J.P. Hamaker, T.E. Hassall, G. Heald, J.W.T. Hessels, M. Hoeft, A. Horneffer, A. van der Horst, M. Iacobelli, N.J. Jackson, E. Juette, A. Karastergiou, W. Klijn, J Kohler, V.I. Kondratiev, M. Kramer, M. Kuniyoshi, G. Kuper, J. van Leeuwen, P. Maat, G. Macario, G. Mann, S. Markoff, J.P. McKean, M. Mevius, J.C.A Miller-Jones, J.D. Mol, D.D. Mulcahy, H. Munk, M.J. Norden, E. Orrú, H. Paas, M. Pandey-Pommier, V.N. Pandey, R. Pizzo, A.G. Polatidis, W. Reich, A.M.M. Scaife, A. Schoenmakers, D. Schwarz, A. Shulevski, J. Sluman, O. Smirnov, C. Sobey, B.W. Stappers, M. Steinmetz, J. Swinbank, M. Tagger, Y. Tang, C. Tasse, S. ter Veen, S. Thoudam, C. Toribio, R. van Nieuwpoort, R. Vermeulen, C. Vocks, C. Vogt, R.A.M.J. Wijers, M.W. Wise, O. Wucknitz, S. Yatawatta, P. Zarka, A. Zensus

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

16 Citations (Scopus)

Abstract

We present the first detection of carbon radio recombination line absorption along the line of sight to Cygnus A. The observations were carried out with the Low Frequency Array in the 33–57 MHz range. These low-frequency radio observations provide us with a new line of sight to study the diffuse, neutral gas in our Galaxy. To our knowledge this is the first time that foreground Milky Way recombination line absorption has been observed against a bright extragalactic background source. By stacking 48 carbon α lines in the observed frequency range we detect carbon absorption with a signal-to-noise ratio of about 5. The average carbon absorption has a peak optical depth of 2 × 10−4, a line width of 10 km s−1 and a velocity of +4 km s−1 with respect to the local standard of rest. The associated gas is found to have an electron temperature Te ∼ 110 K and density ne ∼ 0.06 cm−3. These properties imply that the observed carbon α absorption likely arises in the cold neutral medium of the Orion arm of the Milky Way. Hydrogen and helium lines were not detected to a 3σ peak optical depth limit of 1.5 × 10−4 for a 4 km s−1 channel width. Radio recombination lines associated with Cygnus A itself were also searched for, but are not detected. We set a 3σ upper limit of 1.5 × 10−4 for the peak optical depth of these lines for a 4 km s−1 channel width.

Original language	Undefined
Pages (from-to)	3506-3515
Number of pages	10
Journal	Monthly notices of the Royal Astronomical Society
Volume	437
Issue number	4
DOIs	https://doi.org/10.1093/mnras/stt2158
Publication status	Published - 6 Dec 2013

Keywords

EWI-24499
METIS-302715
IR-89519

Access to Document

10.1093/mnras/stt2158

http://eprints.eemcs.utwente.nl/secure2/24499/01/1401.2876v1.pdf

Cite this

Oonk, J. B. R., van Weeren, R. J., Salgado, F., Morabito, L. K., Tielens, A. G. G. M., Rottgering, H. J. A., Asgekar, A., White, G. J., Alexov, A., Anderson, J., Avruch, I. M., Batejat, F., Beck, R., Bell, M. E., van Bemmel, I., Bentum, M. J., Bernardi, G., Best, P., Bonafede, A., ... Zensus, A. (2013). Discovery of carbon radio recombination lines in absorption towards Cygnus A. Monthly notices of the Royal Astronomical Society, 437(4), 3506-3515. https://doi.org/10.1093/mnras/stt2158

@article{32a635a29add4f2382a95eac5653e2fe,

title = "Discovery of carbon radio recombination lines in absorption towards Cygnus A",

abstract = "We present the first detection of carbon radio recombination line absorption along the line of sight to Cygnus A. The observations were carried out with the Low Frequency Array in the 33–57 MHz range. These low-frequency radio observations provide us with a new line of sight to study the diffuse, neutral gas in our Galaxy. To our knowledge this is the first time that foreground Milky Way recombination line absorption has been observed against a bright extragalactic background source. By stacking 48 carbon α lines in the observed frequency range we detect carbon absorption with a signal-to-noise ratio of about 5. The average carbon absorption has a peak optical depth of 2 × 10−4, a line width of 10 km s−1 and a velocity of +4 km s−1 with respect to the local standard of rest. The associated gas is found to have an electron temperature Te ∼ 110 K and density ne ∼ 0.06 cm−3. These properties imply that the observed carbon α absorption likely arises in the cold neutral medium of the Orion arm of the Milky Way. Hydrogen and helium lines were not detected to a 3σ peak optical depth limit of 1.5 × 10−4 for a 4 km s−1 channel width. Radio recombination lines associated with Cygnus A itself were also searched for, but are not detected. We set a 3σ upper limit of 1.5 × 10−4 for the peak optical depth of these lines for a 4 km s−1 channel width.",

keywords = "EWI-24499, METIS-302715, IR-89519",

author = "J.B.R. Oonk and {van Weeren}, R.J. and F. Salgado and L.K. Morabito and A.G.G.M. Tielens and H.J.A. Rottgering and A. Asgekar and G.J. White and A. Alexov and J. Anderson and I.M. Avruch and F. Batejat and R. Beck and M.E. Bell and {van Bemmel}, I. and Bentum, {Marinus Jan} and G. Bernardi and P. Best and A. Bonafede and F. Breitling and M. Brentjens and J. Broderick and M. Br{\"u}ggen and H.R. Butcher and B. Ciardi and J.E. Conway and A. Corstanje and {de Gasperin}, F. and {de Geus}, E. and M. Vos and S. Duscha and J. Eisl{\"o}ffel and D. Engels and {van Enst}, J. and H. Falcke and R.A. Fallows and R. Fender and C. Ferrari and W. Frieswijk and M.A. Garrett and J. Griessmeier and J.P. Hamaker and T.E. Hassall and G. Heald and J.W.T. Hessels and M. Hoeft and A. Horneffer and {van der Horst}, A. and M. Iacobelli and N.J. Jackson and E. Juette and A. Karastergiou and W. Klijn and J Kohler and V.I. Kondratiev and M. Kramer and M. Kuniyoshi and G. Kuper and {van Leeuwen}, J. and P. Maat and G. Macario and G. Mann and S. Markoff and J.P. McKean and M. Mevius and J.C.A Miller-Jones and J.D. Mol and D.D. Mulcahy and H. Munk and M.J. Norden and E. Orr{\'u} and H. Paas and M. Pandey-Pommier and V.N. Pandey and R. Pizzo and A.G. Polatidis and W. Reich and A.M.M. Scaife and A. Schoenmakers and D. Schwarz and A. Shulevski and J. Sluman and O. Smirnov and C. Sobey and B.W. Stappers and M. Steinmetz and J. Swinbank and M. Tagger and Y. Tang and C. Tasse and {ter Veen}, S. and S. Thoudam and C. Toribio and {van Nieuwpoort}, R. and R. Vermeulen and C. Vocks and C. Vogt and R.A.M.J. Wijers and M.W. Wise and O. Wucknitz and S. Yatawatta and P. Zarka and A. Zensus",

note = "eemcs-eprint-24499 ",

year = "2013",

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day = "6",

doi = "10.1093/mnras/stt2158",

language = "Undefined",

volume = "437",

pages = "3506--3515",

journal = "Monthly notices of the Royal Astronomical Society",

issn = "0035-8711",

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Oonk, JBR, van Weeren, RJ, Salgado, F, Morabito, LK, Tielens, AGGM, Rottgering, HJA, Asgekar, A, White, GJ, Alexov, A, Anderson, J, Avruch, IM, Batejat, F, Beck, R, Bell, ME, van Bemmel, I, Bentum, MJ, Bernardi, G, Best, P, Bonafede, A, Breitling, F, Brentjens, M, Broderick, J, Brüggen, M, Butcher, HR, Ciardi, B, Conway, JE, Corstanje, A, de Gasperin, F, de Geus, E, Vos, M, Duscha, S, Eislöffel, J, Engels, D, van Enst, J, Falcke, H, Fallows, RA, Fender, R, Ferrari, C, Frieswijk, W, Garrett, MA, Griessmeier, J, Hamaker, JP, Hassall, TE, Heald, G, Hessels, JWT, Hoeft, M, Horneffer, A, van der Horst, A, Iacobelli, M, Jackson, NJ, Juette, E, Karastergiou, A, Klijn, W, Kohler, J, Kondratiev, VI, Kramer, M, Kuniyoshi, M, Kuper, G, van Leeuwen, J, Maat, P, Macario, G, Mann, G, Markoff, S, McKean, JP, Mevius, M, Miller-Jones, JCA, Mol, JD, Mulcahy, DD, Munk, H, Norden, MJ, Orrú, E, Paas, H, Pandey-Pommier, M, Pandey, VN, Pizzo, R, Polatidis, AG, Reich, W, Scaife, AMM, Schoenmakers, A, Schwarz, D, Shulevski, A, Sluman, J, Smirnov, O, Sobey, C, Stappers, BW, Steinmetz, M, Swinbank, J, Tagger, M, Tang, Y, Tasse, C, ter Veen, S, Thoudam, S, Toribio, C, van Nieuwpoort, R, Vermeulen, R, Vocks, C, Vogt, C, Wijers, RAMJ, Wise, MW, Wucknitz, O, Yatawatta, S, Zarka, P & Zensus, A 2013, 'Discovery of carbon radio recombination lines in absorption towards Cygnus A', Monthly notices of the Royal Astronomical Society, vol. 437, no. 4, pp. 3506-3515. https://doi.org/10.1093/mnras/stt2158

TY - JOUR

T1 - Discovery of carbon radio recombination lines in absorption towards Cygnus A

AU - Oonk, J.B.R.

AU - van Weeren, R.J.

AU - Salgado, F.

AU - Morabito, L.K.

AU - Tielens, A.G.G.M.

AU - Rottgering, H.J.A.

AU - Asgekar, A.

AU - White, G.J.

AU - Alexov, A.

AU - Anderson, J.

AU - Avruch, I.M.

AU - Batejat, F.

AU - Beck, R.

AU - Bell, M.E.

AU - van Bemmel, I.

AU - Bentum, Marinus Jan

AU - Bernardi, G.

AU - Best, P.

AU - Bonafede, A.

AU - Breitling, F.

AU - Brentjens, M.

AU - Broderick, J.

AU - Brüggen, M.

AU - Butcher, H.R.

AU - Ciardi, B.

AU - Conway, J.E.

AU - Corstanje, A.

AU - de Gasperin, F.

AU - de Geus, E.

AU - Vos, M.

AU - Duscha, S.

AU - Eislöffel, J.

AU - Engels, D.

AU - van Enst, J.

AU - Falcke, H.

AU - Fallows, R.A.

AU - Fender, R.

AU - Ferrari, C.

AU - Frieswijk, W.

AU - Garrett, M.A.

AU - Griessmeier, J.

AU - Hamaker, J.P.

AU - Hassall, T.E.

AU - Heald, G.

AU - Hessels, J.W.T.

AU - Hoeft, M.

AU - Horneffer, A.

AU - van der Horst, A.

AU - Iacobelli, M.

AU - Jackson, N.J.

AU - Juette, E.

AU - Karastergiou, A.

AU - Klijn, W.

AU - Kohler, J

AU - Kondratiev, V.I.

AU - Kramer, M.

AU - Kuniyoshi, M.

AU - Kuper, G.

AU - van Leeuwen, J.

AU - Maat, P.

AU - Macario, G.

AU - Mann, G.

AU - Markoff, S.

AU - McKean, J.P.

AU - Mevius, M.

AU - Miller-Jones, J.C.A

AU - Mol, J.D.

AU - Mulcahy, D.D.

AU - Munk, H.

AU - Norden, M.J.

AU - Orrú, E.

AU - Paas, H.

AU - Pandey-Pommier, M.

AU - Pandey, V.N.

AU - Pizzo, R.

AU - Polatidis, A.G.

AU - Reich, W.

AU - Scaife, A.M.M.

AU - Schoenmakers, A.

AU - Schwarz, D.

AU - Shulevski, A.

AU - Sluman, J.

AU - Smirnov, O.

AU - Sobey, C.

AU - Stappers, B.W.

AU - Steinmetz, M.

AU - Swinbank, J.

AU - Tagger, M.

AU - Tang, Y.

AU - Tasse, C.

AU - ter Veen, S.

AU - Thoudam, S.

AU - Toribio, C.

AU - van Nieuwpoort, R.

AU - Vermeulen, R.

AU - Vocks, C.

AU - Vogt, C.

AU - Wijers, R.A.M.J.

AU - Wise, M.W.

AU - Wucknitz, O.

AU - Yatawatta, S.

AU - Zarka, P.

AU - Zensus, A.

N1 - eemcs-eprint-24499

PY - 2013/12/6

Y1 - 2013/12/6

N2 - We present the first detection of carbon radio recombination line absorption along the line of sight to Cygnus A. The observations were carried out with the Low Frequency Array in the 33–57 MHz range. These low-frequency radio observations provide us with a new line of sight to study the diffuse, neutral gas in our Galaxy. To our knowledge this is the first time that foreground Milky Way recombination line absorption has been observed against a bright extragalactic background source. By stacking 48 carbon α lines in the observed frequency range we detect carbon absorption with a signal-to-noise ratio of about 5. The average carbon absorption has a peak optical depth of 2 × 10−4, a line width of 10 km s−1 and a velocity of +4 km s−1 with respect to the local standard of rest. The associated gas is found to have an electron temperature Te ∼ 110 K and density ne ∼ 0.06 cm−3. These properties imply that the observed carbon α absorption likely arises in the cold neutral medium of the Orion arm of the Milky Way. Hydrogen and helium lines were not detected to a 3σ peak optical depth limit of 1.5 × 10−4 for a 4 km s−1 channel width. Radio recombination lines associated with Cygnus A itself were also searched for, but are not detected. We set a 3σ upper limit of 1.5 × 10−4 for the peak optical depth of these lines for a 4 km s−1 channel width.

AB - We present the first detection of carbon radio recombination line absorption along the line of sight to Cygnus A. The observations were carried out with the Low Frequency Array in the 33–57 MHz range. These low-frequency radio observations provide us with a new line of sight to study the diffuse, neutral gas in our Galaxy. To our knowledge this is the first time that foreground Milky Way recombination line absorption has been observed against a bright extragalactic background source. By stacking 48 carbon α lines in the observed frequency range we detect carbon absorption with a signal-to-noise ratio of about 5. The average carbon absorption has a peak optical depth of 2 × 10−4, a line width of 10 km s−1 and a velocity of +4 km s−1 with respect to the local standard of rest. The associated gas is found to have an electron temperature Te ∼ 110 K and density ne ∼ 0.06 cm−3. These properties imply that the observed carbon α absorption likely arises in the cold neutral medium of the Orion arm of the Milky Way. Hydrogen and helium lines were not detected to a 3σ peak optical depth limit of 1.5 × 10−4 for a 4 km s−1 channel width. Radio recombination lines associated with Cygnus A itself were also searched for, but are not detected. We set a 3σ upper limit of 1.5 × 10−4 for the peak optical depth of these lines for a 4 km s−1 channel width.

KW - EWI-24499

KW - METIS-302715

KW - IR-89519

U2 - 10.1093/mnras/stt2158

DO - 10.1093/mnras/stt2158

M3 - Article

VL - 437

SP - 3506

EP - 3515

JO - Monthly notices of the Royal Astronomical Society

JF - Monthly notices of the Royal Astronomical Society

SN - 0035-8711

IS - 4

ER -