Joule-Thomson effect and Efficiency of deformed AdS-Schwarzschild black hole in presence of quintessence

Abstract

We study the Joule-Thomson expansion and extended thermodynamics of a modified black hole characterised by the parameters α, β, and σ. Analysis of the Hawking temperature, Joule-Thomson coefficient, inversion curves, and isenthalpic trajectories shows that these parameters significantly modify the heating-cooling behaviour and thermal stability of the system. The deformation parameter α and control parameter β shift the temperature minimum, enlarge the cooling region, and raise the inversion temperature, while σ produces a weaker but consistent influence. The heat-engine analysis reveals that α enhances efficiency, whereas higher β and σ reduce it. Overall, the results demonstrate that geometric deformation and quintessence jointly govern the unified thermodynamic structure of the black hole.