[14] S. A. Narawade, Santosh V. Lohakare and B. Mishra, “Stable f(Q) gravity model through non-trivial connection,” Annals of Physics 169913 (2025) 474. [SCIE, Elsevier, IF-3, Q1], arXiv:2408.12846 [gr-qc]

[13] S.A. Narawade and B Mishra, “Insights into f(Q) gravity: Modeling through deceleration parameter,” Journal of High Energy Astrophysics 409 (2025) 45. [SCIE, Elsevier, IF-10.5, Q1]

[12] Y. Kalpana Devi, S. A. Narawade and B. Mishra, “Constraining parameters for the accelerating universe in f(R, Lm) gravity,” Physics of the Dark Universe 101020 (2024) 36. [SCIE, Elsevier, IF-6.4, Q1], arXiv:2407.09569 [gr-qc]

[11] Muhammad Azzam Alwan, Tomohiro Inagaki, B. Mishra and S. A. Narawade, “Neutron Star in Covariant f(Q) gravity,” Journal of Cosmology and Astroparticle Physics 011 (2024) 09. [SCIE, Elsevier, IF-5.9, Q1], arXiv:2407.03669 [gr-qc]

[10] S. A. Narawade, S. H. Shekh, B. Mishra, Wompherdeiki Khyllep and Jibitesh Dutta, “Modelling the Accelerating Universe with f(Q) Gravity: Observational Consistency,” The European Physical Journal C 773 (2024) 84. [SCIE, Springer Nature Link, IF-4.8, Q1], arXiv:2303.01985 [gr-qc]

[9] S. A. Narawade, S. K. Tripathy, Raghunath Patra and B. Mishra, “Baryon asymmetry constraints on Extended Symmetric Teleparallel Gravity,” Gravitation and Cosmology 135 (2024) 30. [SCIE, Springer, IF-1.0, Q3], arXiv:2402.16275 [gr-qc]

[8] S. A. Narawade, Shashank P. Singh and B. Mishra, “Accelerating cosmological models in f(Q) gravity and the phase space analysis,” Physics of the Dark Universe 101282 (2023) 42. [SCIE, Elsevier, IF-6.4, Q1], arXiv:2303.06427 [gr-qc] (Supervised Work: Undergraduate project supervised by me for a master’s student.)

[7] Rahul Bhagat, S. A. Narawade, B. Mishra and S. K. Tripathy, “Constrained cosmological model in f(Q, T) gravity with non-linear non-metricity,” Physics of the Dark Universe 101358 (2023) 42. [SCIE, Elsevier, IF-6.4, Q1], arXiv:2308.11190 [gr-qc]

[6] S. A. Narawade, M. Koussour and B. Mishra, “Observational Constraints on Hybrid Scale Factor in f(Q,T) Gravity with Anisotropic Space-Time,” Annalen der Physik 2200626 (2023) 535. [SCIE, Wiley, IF-2.5, Q2], arXiv:2306.14502 [gr-qc]

[5] Rahul Bhagat, S. A. Narawade and B. Mishra, “Weyl type f(Q, T) gravity observational constrained cosmological model,” Physics of the Dark Universe 101250 (2023) 41. [SCIE, Elsevier, IF-6.4, Q1], arXiv:2305.01659 [gr-qc]

[4] S. A. Narawade, M. Koussour and B. Mishra, “Constrained f(Q, T) gravity accelerating cosmological model and its dynamical system analysis,” Nuclear Physics B 116233 (2023) 992. [SCIE, Elsevier, IF-2.8, Q1], arXiv:2305.08145 [gr-qc]

[3] Laxmipriya Pati, S. A. Narawade, S. K. Tripathy and B. Mishra, “Evolutionary behaviour of cosmological parameters with dynamical system analysis in f(Q, T) gravity,” The European Physical Journal C 445 (2023) 83. [SCIE, Springer Nature Link, IF-4.8, Q1], arXiv:2206.11928 [gr-qc]

[2] S.A. Narawade and B Mishra, “Phantom Cosmological Model with Observational Constraints in f(Q) Gravity,” Annalen der Physik 2200626 (2023) 535. [SCIE, Wiley, IF-2.5, Q2], arXiv:2211.09701 [gr-qc]

[1] S.A. Narawade, L Pati, B Mishra and SK Tripathy, “Dynamical system analysis for accelerating models in non-metricity f(Q) gravity,” Physics of the Dark Universe 101020 (2022) 36. [SCIE, Elsevier, IF-6.4, Q1], arXiv:2203.14121 [gr-qc]