34th Annual Report (2021-22)

188 (Corrigendum), A&A, 652 , C4. 149. Sajal Mukherjee, Sanjit Mitra and Sourav Chatterjee (2021) Gravitational wave observatories may be able to detect hyperbolic encounters of black holes , MNRAS 508 , 5064. 150. R. Caсameras, …, A. More, et al. (2021) HOLISMOKES VI. New galaxy-scale strong lens candidates from the HSC-SSP imaging survey? , A&A, 653 , L6. 151. Anupreeta More (2021) Back to the future with a supernova , NatAs, 5 , 1094. 152. A. Leauthaud…, S.More , et al. (2022) Lensingwithout borders – I. A blind comparison of the amplitude of galaxy–galaxy lensing between independent imaging surveys , MNRAS, 510 , 6150. 153. Chan-Kao Chang, …, Surhud More , et al. (2022) FOSSIL. II. The RotationPeriods of Small-sizedHilda Asteroids , ApJS, 259 , 7. 154. Hung-Yu Jian, ..., Surhud More , et al. (2022) Star Formation Properties of Sloan Digital Sky Survey BOSS Void Galaxies in the Hyper Suprime-CamSurvey , ApJ, 926 , 115. 155. Christine O'Donnell, Peter Behroozi and Surhud More (2022) Observing correlations between dark matter accretion and galaxy growth: II. testing the impact of galaxy mass, star formation indicator, and neighbour colours , MNRAS, 509 , 3285. 156. Saumya Gupta, Jessy Jose, Surhud More , et al. (2021) Subaru Hyper Suprime-Cam Survey of Cygnus OB2 Complex – I. Introduction, photometry, and source catalogue , MNRAS, 508 , 3388. 157. Chan-Kao Chang, …, Surhud More , et al. (2021) FOSSIL. I. The SpinRate Limit of Jupiter Trojans , PSJ, 2 , 191. 158. Wenting Wang, …, Surhud More , et al. (2021) The Stellar Mass in and around Isolated Central Galaxies: Connections to the Total Mass Distribution through Galaxy–Galaxy Lensing in the Hyper Suprime-CamSurvey , ApJ, 919 , 25. 159. Masamune Oguri, …, Surhud More , et al. (2021) Hundreds of weak lensing shear-selected clusters fromthe Hyper Suprime- CamSubaru Strategic ProgramS19A data , PASJ, 73 , 817. 160. Rafael Garc´ıa, Eduardo Rozo, Matthew R. Becker and Surhud More (2021) A redefinition of the halo boundary leads to a simple yet accurate halo model of large-scale structure , MNRAS, 505 , 1195. 161. Ryoma Murata, …, Surhud More , et al. (2021) Erratum: The splashback radius of optically selected clusters with Subaru HSCSecondPublicDataRelease , PASJ, 73 , 772. 162. Wentao Luo, …, Surhud More , et al., (2021) Emergent Gravity Fails to Explain Color-dependent Galaxy–Galaxy Lensing Signal fromSDSSDR7 , ApJ, 914 , 96. 163. Nikhil Borse, Sriyasriti Acharya, Bhargav Vaidya, Dipanjan Mukherjee , Gianluigi Bodo, Paola Rossi and Andrea Mignone (2021) Numerical study of the Kelvin-Helmholtz instability and its effect on synthetic emission from magnetized jets , A&A, 649 , A150. 164. M. E. Jarvis, …, D. Mukherjee (2021) The quasar feedback survey: discovering hidden Radio-AGN and their connection to the host galaxy ionized gas , MNRAS, 503 , 1780. 165. Gerald Cecil1, Alexander Y. Wagner, Joss Bland-Hawthorn, Geoffrey V. Bicknell, and Dipanjan Mukherjee (2021) Tracing theMilkyWay's Vestigial Nuclear Jet , ApJ, 922 , 254. 166. Pallavi Patil, …, Dipanjan Mukherjee , et al. (2021) WISE-NVSS selected obscured and ultraluminous quasars with compact radio jets , AN, 342 , 1166. 167. Dipanjan Mukherje , Geoffrey V. Bicknell, Alexander Y. Wagner (2021) Resolved simulations of jet–ISM interaction: Implications for gas dynamics and star formation , AN, 342 , 1140. 168. P. Dom´ınguez-Fernandez, M. Bruggen, F. Vazza, M. Hoeft, W. E. Banda-Barragan, K. Rajpurohit, D. Wittor, A. Mignone, D. Mukherjee and B. Vaidya (2021) Morphology of radio relics – II. Properties of polarized emission , MNRAS, 507, 2714. 169. Dipanjan Mukherjee , Gianluigi Bodo, Paola Rossi, Andrea Mignone and Bhargav Vaidya (2021) Simulating the dynamics and synchrotron emission from relativistic jets –II. Evolution of non-thermal electrons , MNRAS, 505 , 2267. 170. 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. 171. Kristina Nyland, …, Dipanjan Mukherjee , et al. (2021) Powerful quasars with young jets in multi-epoch radio surveys , AN, 342 , 1146. 172. Silpa S., P. Kharb, C. P. O'Dea, S. A. Baum, B. Sebastian, D. Mukherjee and C. M. Harrison (2021) AGN jets and winds in polarized light: the case of Mrk 231 , MNRAS, 507 , 2550. 173. Sajal Mukherjee , Naresh Dadhich (2021) Pure Gauss-Bonnet NUT black hole with and without central singularity , EJPC, 81 , 458 (2021) 174. Subhajit Barman & Sajal Mukherjee (2021) Thermal behavior of a radially deformed black hole spacetime , EPJC, 81 , 453. 175. JDorigo Jones, SDJohnson, SowgatMuzahid , J Charlton, H-W Chen, A Narayanan, Sameer, J Schaye, N A Wijers (2022) Improving blazar redshift constraints with the edge of the