We consider transcendental merornorphic solutions with N(r, f) = S(r, f) of the following type of nonlinear differential equations:f^n + Pn-2(f) = p1(z)e~α1(z) + p2(z)^α2(z),where n ≥2 is an intege...We consider transcendental merornorphic solutions with N(r, f) = S(r, f) of the following type of nonlinear differential equations:f^n + Pn-2(f) = p1(z)e~α1(z) + p2(z)^α2(z),where n ≥2 is an integer, Pn-2(f) is a differential polynomial in f of degree not greater than n-2 with small functions of f as its coefficients, p1(z), p2(z) are nonzero small functions of f1 and α1(z), α2(z) are nonconstant entire functions. In particular, we give out the conditions for ensuring the existence of meromorphic solutions and their possible forms of the above equation. Our results extend and improve some known results obtained most recently.展开更多
基金Sponsored by NNSF of China(Grant No.11671191)Natural Science Foundation of Shanghai(Grant No.17ZR1402900)
文摘We consider transcendental merornorphic solutions with N(r, f) = S(r, f) of the following type of nonlinear differential equations:f^n + Pn-2(f) = p1(z)e~α1(z) + p2(z)^α2(z),where n ≥2 is an integer, Pn-2(f) is a differential polynomial in f of degree not greater than n-2 with small functions of f as its coefficients, p1(z), p2(z) are nonzero small functions of f1 and α1(z), α2(z) are nonconstant entire functions. In particular, we give out the conditions for ensuring the existence of meromorphic solutions and their possible forms of the above equation. Our results extend and improve some known results obtained most recently.