k-essence classical Hamiltonian approach for an accelerated expansion of the Universe with ω≈-1

Abstract

We obtain lagrangian for k-essence scalar field φ(r,t) with scalar curvature k of Friedmann-Lemaitre-Robertson-Walker (FLRW) metric . Obtained lagrangian has two generalised co-ordinates φ and logarithm of scale factor (q= a). Classical Hamiltonian ( H) is obtained in terms of two corresponding conjugate momentum pq and pφ. Solving Hamilton's equation of motion , we obtain classical solution for scale factor a(t), energy density , equation of state parameter ω and deceleration parameter q0 . At late time as t→∞, we have an exponential growth of scale factor with time, energy density becomes constant, which we can identify as dark energy density, equation of state parameter becomes ω≈ -1 and deceleration parameter becomes q0≈ -1. All this results indicates an accelerated expansion of universe driven by negative pressure known as dark energy.