[en] Aims. The long-period comet C/2020 F3 (NEOWISE) was the brightest comet in the northern hemisphere since C/1995 O1 (Hale-Bopp). These comets offer a unique opportunity to study their composition and the spatial variation in the different emission in detail. We conducted long-slit low-resolution spectroscopy and narrow-band photometry to track the evolution of its activity and composition during several weeks after perihelion. The images were used to compute the production rates of neutral molecular species and dust, and the spectrum was used to analyse the variation in the emission along the spatial axis in the sunward and anti-sunward directions to detect ionic emission. Methods. Narrow-band (OH[3090 Å], NH[3362 Å], CN[3870 Å], C2[5140 Å], C3[4062 Å], BC[4450 Å], GC[5260 Å], and RC[7128 Å]) and broad-band (Johnson-Cousins B, V, Rc, Ic) images of comet C/2020 F3 were taken with TRAPPIST-North from 22 July to 10 September 2022 to track the production rates, the evolution of the chemical mixing ratios with solar distance, and the proxy to the dust production (A(0)fρ). A long-slit low-resolution spectrum was obtained on 24 July 2020 using HFOSC on the 2 m HCT at IAO, Hanle. Spectra extracted along the spatial axis in the sunward and anti-sunward directions enabled a comparative analysis of the emission in both directions. Results. We report production rates and mixing ratios of OH, NH, CN, C2, C3, and NH2 and used the flux density of the forbidden oxygen line to derive the water-production rate. Ionic emission from N2+, CO+, CO2+, and H2O+ was detected at 4 × 10^4km to 1 × 10^5 km from the photocentre in the tail direction. The average N2+/CO+ ratio for the CO+ (3-0) and (2-0) bands measured from the spectrum was (3.0 ± 1.0) × 10–2, which we further refined to (4.8 ± 2.4) × 10–2 using fluorescence modelling techniques. We measured the CO2+/CO+ ratio to be 1.34 ± 0.21. Combining the N2+/CO+ and CO2+/CO+ ratios, we suggest the comet to have formed in the cold mid-outer nebula (~50–70 K). Furthermore, the average rotation period of the comet was calculated to be 7.28 ± 0.79 hours with a CN gas outflow velocity of 2.40 ± 0.25 km/s.
Disciplines :
Space science, astronomy & astrophysics
Author, co-author :
Krishnakumar, Aravind ; Université de Liège - ULiège > Département d'astrophysique, géophysique et océanographie (AGO) > COMets METeors and Asteroids (COMETA)
Jehin, Emmanuel ; Université de Liège - ULiège > Unités de recherche interfacultaires > Space sciences, Technologies and Astrophysics Research (STAR)
Hmmidouch, S.; University of Liege, Department of Astrophysics, Geophysics and Oceanography, -
Vander Donckt, Mathieu ; Université de Liège - ULiège > Unités de recherche interfacultaires > Space sciences, Technologies and Astrophysics Research (STAR)
Ganesh, S.; Physical Research Laboratory, India
Rousselot, P.; Université Marie et Louis Pasteur, CNRS, Institut UTINAM (UMR 6213), OSU THETA, BP 1615, 25010, Besançon Cedex, France,
Hardy, Pierre ; Université de Liège - ULiège > Département d'astrophysique, géophysique et océanographie (AGO) > COMets METeors and Asteroids (COMETA) ; Université Marie et Louis Pasteur, CNRS, Institut UTINAM (UMR 6213), OSU THETA, BP 1615, 25010, Besançon Cedex, France, Université Bourgogne Europe, CNRS, Laboratoire Interdisciplinaire Carnot de Bourgogne ICB UMR 6303, 21000, Dijon, France,
Sahu, D.; Indian Institute of Astronomy, Bangalore-56034, India,
Manfroid, Jean ; Université de Liège - ULiège > Département d'astrophysique, géophysique et océanographie (AGO)
Benkhaldoun, Z.; Cadi Ayyad University (UCA), Oukaimeden Observatory (OUCA), Faculté des Sciences Semlalia (FSSM), High Energy Physics, Astrophysics and Geoscience Laboratory (LPHEAG), Marrakech, Morocco,
Language :
English
Title :
Ionic emission from and activity evolution in comet C/2020 F3 (NEOWISE): Insights from long-slit spectroscopy and photometry
Cochran, A. L., & McKay, A. J. 2018, ApJ, 854, L10
Cochran, A. L., Cochran, W. D., & Barker, E. S. 2000, Icarus, 146, 583
Cochran, A. L., Barker, E. S., & Gray, C. L. 2012, Icarus, 218, 144
Cochran, A. L., Nelson, T., McKay, A. J., et al. 2020, AAS/Div. Planet. Sci. Meeting Abstracts, 52, 111.03
Combi, M. R., Mäkinen, T., Bertaux, J. L., Quémerais, E., & Ferron, S. 2021, ApJ, 907, L38
Dello Russo, N., Vervack, R. J., Kawakita, H., et al. 2016, Icarus, 266, 152
Drahus, M., Guzik, P., Stephens, A., et al. 2020, ATel, 13945, 1
Faggi, S., Lippi, M., Camarca, M., et al. 2021, AJ, 162, 178
Farnham, T. L., Schleicher, D. G., & A’Hearn, M. F. 2000, Icarus, 147, 180
Fegley, Bruce, J., & Prinn, R. G. 1989, in The Formation and Evolution of Planetary Systems, eds. H. A. Weaver, & L. Danly (Massachusetts: Massachusetts Institute of Technology), 171
Feldman, P. D., A’Hearn, M. F., Festou, M. C., et al. 1986, Nature, 324, 433
Feldman, P. D., Festou, M. C., Tozzi, P., & Weaver, H. A. 1997, ApJ, 475, 829
Feldman, P. D., Cochran, A. L., & Combi, M. R. 2004, in Comets II, eds. M. C. Festou, H. U. Keller, & H. A. Weaver (Tucson: UA Press), 425
Festou, M. C., Feldman, P. D., & Weaver, H. A. 1982, ApJ, 256, 331
Fink, U. 2009, Icarus, 201, 311
Fink, U., & Combi, M. R. 2004, Planet. Space Sci., 52, 573
Fink, U., & Hicks, M. D. 1996, ApJ, 459, 729
Fink, U., Combi, M. R., & Disanti, M. A. 1991, ApJ, 383, 356
Hardy, P., Jehin, E., Rousselot, P., Hutsemékers, D., & Manfroid, J. 2023, LPI Contrib., 2851, 2148
Harrington Pinto, O., Womack, M., Fernandez, Y., & Bauer, J. 2022, PSJ, 3, 247
Haser, L. 1957, Bulletin de la Societe Royale des Sciences de Liege, 43, 740
