CfA astronomer Mark Gurwell was a member of a large team of astronomers that monitored variability of the blazar CTA102 from 2013-2017 spanning the electromagnetic spectrum from radio to gamma rays, in particular using the Submillimeter Array to measure crucial short (mm/submm) wavelength radio emission. Although this bright blazar had been under surveillance since 1978, it was only since the launch of the Compton Gamma Ray Observatory in 1992 that its gamma-ray variability was discovered, and the launch of the Fermi Gamma-Ray Space Telescope mission 2008 enabled continued observations. In 2016, CTA102 entered a new phase of very high gamma-ray activity, flaring for a few weeks with corresponding emission changes at all wavelengths. In December of that year a flare was spotted that was more than 250 times brighter than its usual faint state. Several detailed physical scenarios were proposed for that event, one of them based on changes in the geometrical orientation of the jets. In the new paper, the team notes that because the two emission peaks arise from two different processes with different geometrical characteristics, the geometrical scenario can be tested. The gamma-ray and optical fluxes arise from the same particle motions in the jets, for example, and should be strongly correlated. The astronomers undertook an analysis of all the available variability data from 2013-2017. They conclude that an inhomogeneous, curved jet modulated by changes in orientation can explain the long-term flux and spectral evolution of CTA102 in a straightforward way. Reference: “Investigating the Multiwavelength Behaviour of the Flat Spectrum Radio Quasar CTA 102 during 2013–2017” by F D’Ammando, C M Raiteri, M Villata, J A Acosta-Pulido, I Agudo, A A Arkharov, R Bachev, G V Baida, E Benítez, G A Borman, W Boschin, V Bozhilov, M S Butuzova, P Calcidese, M I Carnerero, D Carosati, C Casadio, N Castro-Segura, W-P Chen, G Damljanovic, A Di Paola, J Echevarría, N V Efimova, Sh A Ehgamberdiev, C Espinosa, A Fuentes, A Giunta, J L Gómez, T S Grishina, M A Gurwell, D Hiriart, H Jermak, B Jordan, S G Jorstad, M Joshi, G N Kimeridze, E N Kopatskaya, K Kuratov, O M Kurtanidze, S O Kurtanidze, A Lähteenmäki, V M Larionov, E G Larionova, L V Larionova, C Lázaro, C S Lin, M P Malmrose, A P Marscher, K Matsumoto, B McBreen, R Michel, B Mihov, M Minev, D O Mirzaqulov, S N Molina, J W Moody, D A Morozova, S V Nazarov, A A Nikiforova, M G Nikolashvili, J M Ohlert, N Okhmat, E Ovcharov, F Pinna, T A Polakis, C Protasio, T Pursimo, F J Redondo-Lorenzo, N Rizzi, G Rodriguez-Coira, K Sadakane, A C Sadun, M R Samal, S S Savchenko, E Semkov, L Sigua, B A Skiff, L Slavcheva-Mihova, P S Smith, I A Steele, A Strigachev, J Tammi, C Thum, M Tornikoski, Yu V Troitskaya, I S Troitsky, A A Vasilyev, O Vince, (the WEBT Collaboration), T Hovatta, S Kiehlmann, W Max-Moerbeck, A C S Readhead, R Reeves, T J Pearson, (the OVRO Team), T Mufakharov, Yu V Sotnikova and M G Mingaliev, 9 October 2019, Monthly Notices of the Royal Astronomical Society.DOI: 10.1093/mnras/stz2792
