Dr Subhajit JanaLecturer in Number Theory Email: s.jana@qmul.ac.ukTelephone: +44 (0)20 7882 7138Room Number: Mathematical Sciences Building, Room MB-G27Website: https://sites.google.com/view/subhajit-janaOffice Hours: Please email for an appointmentProfileTeachingResearchPublicationsProfileSubhajit Jana is a lecturer in the Algebra and Number Theory group since 2022 September. Prior to that, he held a postdoctoral fellowship at Max Planck Institute for Mathematics in Bonn, Germany. He completed his Ph.D. in July 2020 from ETH Zurich, Switzerland.TeachingCurrent teaching Number Theory - Semester A, 2024/25 Differential and Integral Analysis - Semester B, 2024/25 Past teaching MTH4*15: Vectors and Matrices - Semester B, 2022/23. MTH5130: Number Theory - Semester A, 2023/24. ResearchResearch Interests:See Subhajit Jana's research profile pages including details of research interests, publications, and live grants. Publications Analytic newvectors and related Analytic newvectors for GL(n,R), joint with Paul D. Nelson: submitted, arXiv. Applications of analytic newvectors for GL(n): Math. Ann. 380 (3), 915-952, (2021), arXiv. Estimates of central L-values The second moment of GL(n) x GL(n) Rankin--Selberg L-functions: Forum Math. Sigma, vol.10, e47, (2022), arXiv. The Weyl bound for triple product L-functions, joint with Valentin Blomer and Paul D. Nelson: Duke Math J. 172 (6), 1173-1234, (2023), arXiv. Spectral reciprocity for GL(n) and simultaneous non-vanishing of central L-values, joint with Ramon Nunes; submitted, arXiv. Moments of L-functions via the relative trace formula, joint with Ramon Nunes; submitted, arXiv. Local integral transforms and global spectral decomposition, joint with Valentin Blomer and Paul D. Nelson; submitted, arXiv. Bounds of automorphic forms Supnorm of an eigenfunction of finitely many Hecke operators: Ramanujan J. 48 (3), 623-638, (2019), arXiv. On the local L2-Bound of the Eisenstein series, joint with Amitay Kamber; Forum Math. Sigma, vol.12, e76, (2024), arXiv. Equidistribution and Diophantine approximation Joint equidistribution on the product of the circle and the unit cotangent bundle of the modular surface: J. Number Theory 226C, 271-283, (2021), arXiv. Optimal Diophantine exponents for SL(n): joint with Amitay Kamber; Adv. Math. 443 (2024), Paper No. 109613, arXiv. On Fourier asymptotics and effective equidistribution, joint with Shreyasi Datta: submitted, arXiv.