Astrophysics Research Centre 1
1. Generalized uncertainty principle corrections in Rastall–Rainbow Casimir wormholes
2. Anisotropic stellar modeling via MIT Bag model EoS admitting Finch–Skea spacetime in f(Q) gravity
3. Physical modelling of near-Earth asteroid (23187) 2000 PN9 with ground-based optical and radar observations
4. Circular orbits and observational signatures in regular black hole spacetimes
5. Compact stars with color–flavor-locked quark matter in gravitys rainbow
6. Dehnen-type dark matter wormholes in the f(R,Lm,T) action
7. Dymnikova-Schwinger GUP-corrected wormholes in f(R,Lm,T) gravity
8. Einstein clusters as dark matter fluid-like models for constructing new wormhole solutions in f(R,Lm,T) gravity
9. Einstein-Gauss-Bonnet black holes seeded by cosmic voids
10. Event horizon telescope observational constraints on Dymnikova-type non-singular black holes in higher dimensions
11. Exploring B(z)CDM models beyond ΛCDM: Observational data and cosmographic analysis
12. Exploring the physical properties of anisotropic compact objects and constraining their mass–radius relations beyond standard limit in F(Q)-gravity
13. Possible wormholes in f(R) gravity sourced by solitonic quantum wave and cold dark matter halos and their repulsive gravity effect
14. Possible wormholes in generalized geometry–matter coupling gravity induced by the Dekel–Zhao dark matter profile
15. Quantum corrections to Dymnikova-Schwinger black holes in Einstein-Gauss-Bonnet gravity
16. Role of dark energy on maximum mass, stability, and structure: Theoretical insights into relativistic compact stars
17. Study of anisotropic quark stars with interacting quark matter in f(R,T) gravity
18. Testing linear non-minimal coupling in f(Q,T) gravity using X-ray binary pulsars constrained by NICER observations
19. Holographic dark matter profiles and their impact on wormhole formation and redshift in dRGT gravity
20. Constraints on bulk viscosity in f(Q,T) gravity from H(z)/Pantheon+ data
21. Exploring accelerated expansion in the universe: A study of f(Q,T) gravity with parameterized EoS and cosmological constraints
22. Anisotropic model of stellar objects in modified f(R) gravity
23. Constructing stellar solutions with spherical symmetry through quadratic anisotropy in f(Q) gravity
24. Dynamics of relativistic wormholes in the presence of dark matter density profile within f(Q,T) gravity
25. Physically viable and stable charged perfect fluid solution within F(Q) gravity
26. Role of the complexity factor and Karmarkar condition in constructing new wormhole models in dRGT gravity
27. Bose–Einstein Condensation dark matter models generated by gravitational decoupling
28. Effect of torsion and electric charge parameters on the configuration of anisotropic compact stars in f(T) gravity
29. Embedded class one analysis of wormhole configurations in 4D Einstein–Gauss–Bonnet gravity with logarithmic redshift functions
30. Implication of f(Q,T) gravity on the formation of the charge compact stars and constraining their mass-radius relations in lower mass gap region
31. Influence of minimal gravitational decoupling and pseudo isothermal dark matter halo on mass-radius relation and stability of anisotropic compact stars in f(R,T)–gravity
32. Modeling self-bound binary compact object with a slow rotation effect and effect of electric field gradient on the mass-radius limit and moment of inertia
33. Role of F(Q,T) gravity with class one space-time in constructing new spherically symmetric stellar solutions
34. Role of three coupling parameters on maximum mass and stability: Theoretical insights into relativistic massive compact objects in mass gap under f(Q,T) action
35. On perturbation induced minimal geometric decoupling in spacetime and its impact on mass-gap stability: Insights from the binary mergers GW190814, GW200210, and millisecond pulsars PSR J1614-2230 and PSR J0952-0607
36. Stability of compact stars in a uniform density background cloud
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