Gray/dark soliton behavior and population under a symmetric and asymmetric potential trap
- Resource Type
- Working Paper
- Authors
- Hussain, Jameel; Akram, Javed; Saif, Farhan
- Source
- J. Low Temp. Phy. 195, 429 (2019)
- Subject
- Nonlinear Sciences - Pattern Formation and Solitons
Condensed Matter - Quantum Gases
Quantum Physics
- Language
We numerically study the impact of Gaussian barrier height and width on the gray solitons population in a symmetric and asymmetric potential trap. The gray solitons are created in a double-well potential by the density engineering method. Two identical Bose-Einstein condensate fragments are confined and made to collide by switching off the Gaussian barrier in a double-well potential. We find that the gray solitons population can be manipulated by Gaussian barrier height and width. We also study the gray solitons population dependence on the coupling strength. Moreover, we also study the impact of an asymmetry present in the double-well potential. We observe that such an asymmetry always swings the point of collision of the gray solitons. Later, a stationary dark soliton is created by the phase imprinting method and we observe that the initial asymmetry in the double-well potential trap sets the dark soliton into oscillation.