This paper deals with two topics mentioned in the title. First, it is proved that function f in L^P( Da) can be decomposed into a sum g + h, where Da is an angular domain in the complex plane, g and h are the non-t...This paper deals with two topics mentioned in the title. First, it is proved that function f in L^P( Da) can be decomposed into a sum g + h, where Da is an angular domain in the complex plane, g and h are the non-tangential limits of functions in H^P(Da) and H^P(aD^c) in the sense of LP(Da), respectively. Second, the sufficient and necessary conditions between boundary values of holomorphic functions and distributions in n-dimensional complex space are obtained.展开更多
基金supported by the National Natural Science Foundation of China(No.11271045)the Higher School Doctoral Foundation of China(No.20100003110004)
文摘This paper deals with two topics mentioned in the title. First, it is proved that function f in L^P( Da) can be decomposed into a sum g + h, where Da is an angular domain in the complex plane, g and h are the non-tangential limits of functions in H^P(Da) and H^P(aD^c) in the sense of LP(Da), respectively. Second, the sufficient and necessary conditions between boundary values of holomorphic functions and distributions in n-dimensional complex space are obtained.
