Dynamics of the breather waves, rogue waves and solitary waves in an extend Kadomtsev-Petviashvili equation

Under investigation in this work is an extend Kadomtsev-Petviashvili (eKP) equation, which appears in the study of multi-component plasmas. By considering Bell's polynomials, an effective and straightforward way is presented to succinctly derive its bilinear form and soliton solutions. Moreover, the homoclinic breather limit method is employed to construct the breather wave and rogue wave solutions of the equation. Finally, the dynamic behaviors of breather waves, rogue waves and solitary waves are discussed with graphic analysis. It is hoped that our results can be useful for explaining and enriching the dynamic behavior of these KP-type equations.