35th Annual Report (2022-2023) - ENGLISH

186 110. Hiroaki Aihara, …, SurhudMore , et al. (2022) Third data release of the Hyper Suprime-Cam Subaru Strategic Program , PASJ, 74 , 247. 111. Moun Meenakshi, Dipanjan Mukherjee , Alexander Y Wagner, Nicole P. H. Nesvadba, Raffaella Morganti, Reinier M. J. Janssen, Geoffrey V. Bicknell (2022) The extent of ionization in simulations of radio-loud AGNs impacting kpc gas discs , MNRAS, 511 , 1622. 112. A. Girdhar, …, D. Mukherjee , et al. (2022) Quasar feedback survey: multiphase outflows, turbulence, and evidence for feedback caused by low power radio jets inclined into the galaxy disc , MNRAS, 512 , 1608. 113. Gourab Giri, Bhargav Vaidya, Paola Rossi, Gianluigi Bodo, DipanjanMukherjee and Andrea Mignone (2022) Modelling X- shaped radio galaxies: Dynamical and emission signatures fromtheBack-flowmodel , A&A, 662 , A5. 114. Pallavi Patil, …, Dipanjan Mukherjee , et al. (2022) Radio Spectra of Luminous, Heavily Obscured WISE-NVSS Selected Quasars , ApJ, 934 , 26. 115. S. Silpa, P. Kharb, C. M. Harrison, A. Girdhar, D. Mukherjee , V. Mainieri, M. E. Jarvis (2022) The Quasar Feedback Survey: revealing the interplay of jets, winds, and emission-line gas in type 2 quasarswith radio polarization , MNRAS, 513 , 4208. 116. G. Fabbiano, A. Paggi, R. Morganti, M. Baloković, M. Elvis, D. Mukherjee , M. Meenakshi, A. Siemiginowska, S. M. Murthy, T. A. Oosterloo (2022) Jet–ISM Interaction in NGC 1167/B2 0258+35, an LINERwith an AGNPast , ApJ, 938 , 105. 117. Moun Meenakshi, Dipanjan Mukherjee , Alexander Y. Wagner, Nicole P. H. Nesvadba, Geoffrey V. Bicknell, Raffaella Morganti, Reinier M. J. Janssen, Ralph S. Sutherland, Ankush Mandal (2022) Modelling observable signatures of jet-ISM interaction: thermal emission and gas kinematics , MNRAS, 516 , 766. 118. Shankar Ray, Joydeep Bagchi, Suraj Dhiwar, M. B. Pandge, Mohammad Mirakhor, Stephen A Walker, Dipanjan Mukherjee (2022) Hubble Space Telescope Captures UGC 12591: bulge/disc properties, star formation and 'missing baryons' census in a very massive and fast-spinning hybrid galaxy , MNRAS, 517 , 99. 119. Samanwaya Mukherjee , Sayak Datta , Srishti Tiwari , Khun Sang Phukon, and Sukanta Bose (2022) Toward establishing the presence or absence of horizons in coalescing binaries of compact objects by using their gravitational wave signals , PhRvD, 106 , 104032. Jansen, Rogier A. Windhorst, Harry I. Teplitz, and Brent M. Smith (2023) The AstroSat UV Deep Field North: The Far- and Near- ultraviolet Photometric Catalog , ApJSS, 264 , 40. 91. P. Joseph, K. George, S. Subramanian, C. Mondal and A. Subramaniam (2022) Smallest Scale Clumpy Star Formation in Stephan's Quintet Revealed fromUV and IR Imaging , RNAAS, 6, 180. 92. Kenneth C. Wong, James H. H. Chan, Dani C-Y Chao, Anton T. Jaelani, Issha Kayo, Chien-Hsiu Lee, Anupreeta More , Masamune Oguri (2022) Survey of Gravitationally lensed objects in HSC Imaging (SuGOHI). VIII. New galaxy-scale lenses fromtheHSCSSP , PASJ, 74 , 1209. 93. Justin Janquart, Anupreeta More , Chris Van Den Broeck (2023) Ordering the confusion: a study of the impact of lens models on gravitational-wave strong lensing detection capabilities , MNRAS, 519 , 2046. 94. Anupreeta More , Surhud More (2022) Improved statistic to identify strongly lensed gravitational wave events , MNRAS, 515 , 1044. 95. T. Schmidt, …, A. More , et al. (DES Collaboration) (2023) STRIDES: automated uniformmodels for 30 quadruply imaged quasars , MNRAS, 518 , 1260. 96. A. Akhazhanov, A.More , et al. (2022) Finding quadruply imaged quasars with machine learning – I. Methods , MNRAS, 513 , 2407. 97. Thomas M. Jackson, Anna Pasquali, Francesco La Barbera, Surhud More and Eva K. Grebel (2023) The nature and origins of the low surface brightness outskirts of massive, central galaxies inSubaruHSC , MNRAS, 520 , 1155. 98. Youngsoo Park, Tomomi Sunayama, Masahiro Takada, Yosuke Kobayashi, Hironao Miyatake, Surhud More , Takahiro Nishimichi, and Sunao Sugiyama (2023) Cluster cosmology with anisotropic boosts: validation of a novel forward modelling analysis and application on SDSS redMaPPer clusters, MNRAS, 518 , 5171. 99. A. Amon, …, S. More , et al. (2023) Consistent lensing and clustering in a low-S8 Universe with BOSS, DES Year 3, HSC Year 1, and KiDS-1000 , MNRAS, 518 , 477. 100. Amit Kumar, Surhud More , Divya Rana (2022) Subaru HSC weak lensing of SDSS redMaPPer cluster satellite galaxies: empirical upper limit on orphan fractions , MNRAS, 517 , 4389.