Polymer Quantization in the Bogoliubov's Regime for a Homogeneous One-Dimensional Bose-Einstein Condensate

In the present report we analyze the modifications caused by the polymer quantization upon the ground state of a homogeneous one-dimensional Bose-Einstein condensate. We obtain the ground state energy of the corresponding N-body system and consequently, the corresponding speed of sound, allowing us to explore the sensitivity of the system to corrections caused by the polymer length scale. Such corrections can be enhanced for dense systems together with small values of the corresponding one-dimensional scattering length. However, these corrections remain constrained due to finite size effects of the system. The contributions of the polymer length scale to the properties of the ground state energy of the system allow us to explore, as a first approximation and when the Bogoliubov's formalism is valid, the sensitivity of this many-body system to traces caused by the discreteness of space suggested by the polymer quantization.