The host galaxies of radio-loud quasars at z >5 with ALMA

The host galaxies of radio-loud quasars at z >5 with ALMA

The interaction between radio jets and quasar host galaxies plays a paramount role in quasar and galaxy co-evolution. However, very little is known at present about this interaction at very high$-z$. Here, we present new Atacama Large Millimeter/submillimeter Array (ALMA) observations in Bands 7 and...

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Hauptverfasser: Mazzucchelli, C., Decarli, R., Belladitta, S., Banados, E., Meyer, R.A., Connor, T., Momjian, E., Rojas-Ruiz, S., Eilers, A.-C., Khusanova, Y., Farina, E.P., Drake, A.B., Walter, F., Wang, F., Onoue, M., Venemans, B.P.
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container_title Astronomy and astrophysics (Berlin)
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creator Mazzucchelli, C.
Decarli, R.
Belladitta, S.
Banados, E.
Meyer, R.A.
Connor, T.
Momjian, E.
Rojas-Ruiz, S.
Eilers, A.-C.
Khusanova, Y.
Farina, E.P.
Drake, A.B.
Walter, F.
Wang, F.
Onoue, M.
Venemans, B.P.
description The interaction between radio jets and quasar host galaxies plays a paramount role in quasar and galaxy co-evolution. However, very little is known at present about this interaction at very high$-z$. Here, we present new Atacama Large Millimeter/submillimeter Array (ALMA) observations in Bands 7 and 3 of six radio-loud (RL) quasar host galaxies at $z > 5$. We recovered mu m line and underlying dust continuum emission at $>2 for five sources, while we obtained upper limits for the emission line and continuum for the remaining source. At the spatial resolution of our observations (sim 1 we did not recover any perturbed or extended morphologies or kinematics, which are known signatures of potential mergers. These galaxies already host large quantities of gas ($ $ M$_ odot $), with luminosities of cii L_ odot $ and star formation rates of $30-400 odot $yr$^ $. In building their radio/submillimeter (radio/submm) spectral energy distributions (SEDs), we found that in at least four cases, the 1mm continuum intensity arises from a combination of synchrotron and dust emission. The initial estimation of synchrotron contribution at 300 GHz in these cases is of gtrsim 10. Assuming a scenario where the continuum emission is solely due to cold dust as an upper limit, we obtained infrared (IR) luminosities of $L_ IR L_ odot $. We compared the properties of the sources inspected here with a large collection of radio-quiet sources from the literature, as well as a sample of RL quasars from previous studies at comparable redshifts. We recovered a mild potential decrease in $L_ cii $ for the RL sources, which might be due to a suppression of the cool gas emission due to the radio jets. We did not find any companion galaxy candidate around the five RL quasars observed in Band 7. Given the depth of our dataset, this result is still consistent with what has been observed around radio-quiet quasars. Future higher spatial-resolution observations, over a broader frequency range, of high$-z$ RL quasars hosts will allow us to further improve our understanding of the physics of these sources.
doi_str_mv 10.1051/0004-6361/202451290
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The initial estimation of synchrotron contribution at 300 GHz in these cases is of gtrsim 10&lt;!PCT!&gt;. Assuming a scenario where the continuum emission is solely due to cold dust as an upper limit, we obtained infrared (IR) luminosities of $L_ IR L_ odot $. We compared the properties of the sources inspected here with a large collection of radio-quiet sources from the literature, as well as a sample of RL quasars from previous studies at comparable redshifts. We recovered a mild potential decrease in $L_ cii $ for the RL sources, which might be due to a suppression of the cool gas emission due to the radio jets. We did not find any companion galaxy candidate around the five RL quasars observed in Band 7. Given the depth of our dataset, this result is still consistent with what has been observed around radio-quiet quasars. 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The initial estimation of synchrotron contribution at 300 GHz in these cases is of gtrsim 10&lt;!PCT!&gt;. Assuming a scenario where the continuum emission is solely due to cold dust as an upper limit, we obtained infrared (IR) luminosities of $L_ IR L_ odot $. We compared the properties of the sources inspected here with a large collection of radio-quiet sources from the literature, as well as a sample of RL quasars from previous studies at comparable redshifts. We recovered a mild potential decrease in $L_ cii $ for the RL sources, which might be due to a suppression of the cool gas emission due to the radio jets. We did not find any companion galaxy candidate around the five RL quasars observed in Band 7. Given the depth of our dataset, this result is still consistent with what has been observed around radio-quiet quasars. 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title The host galaxies of radio-loud quasars at z >5 with ALMA
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