The family of cubic Thue equation which depend on two parameters | x^3 + mx^2 y-(m+3) xy^2+y^3|=k is studied. Using rational approximation, we give a smaller upper bound of the solution of the equation, that is...The family of cubic Thue equation which depend on two parameters | x^3 + mx^2 y-(m+3) xy^2+y^3|=k is studied. Using rational approximation, we give a smaller upper bound of the solution of the equation, that is quite better than the present result. Moreover, we study two inequalities | x^3 + mx^2y-(m + 3) xy^2+y^3 | =k≤2m+3 and |x^3 +mx^2y- (m+3)xy^2 + y^3| = k≤ (2m+3)^2 separately. Our result of upper bound make it easy to solve those inequalities by simple method of continuous fraction expansion.展开更多
基金Supported by the National Natural ScienceFoundation of China (2001AA141010)
文摘The family of cubic Thue equation which depend on two parameters | x^3 + mx^2 y-(m+3) xy^2+y^3|=k is studied. Using rational approximation, we give a smaller upper bound of the solution of the equation, that is quite better than the present result. Moreover, we study two inequalities | x^3 + mx^2y-(m + 3) xy^2+y^3 | =k≤2m+3 and |x^3 +mx^2y- (m+3)xy^2 + y^3| = k≤ (2m+3)^2 separately. Our result of upper bound make it easy to solve those inequalities by simple method of continuous fraction expansion.
