Let R and S be associative rings and sVR a semidualizing (S-R)-bimodule. An R-module N is said to be V-Gorenstein injective if there exists a HomR(Zv(R),-) and HomR(-,Zv(R)) exact exact complex . of V-inject...Let R and S be associative rings and sVR a semidualizing (S-R)-bimodule. An R-module N is said to be V-Gorenstein injective if there exists a HomR(Zv(R),-) and HomR(-,Zv(R)) exact exact complex . of V-injective modules Ii and Ii,i ∈ N0, such that N We will call N to be strongly V-Gorenstein injective in case that all modules and homomorphisms in the above exact complex are equal, respectively. It is proved that the class of V-Gorenstein injective modules are closed under extension, direct summand and is a subset of the Auslander class ,4v(R) which leads to the fact that V-Gorenstein injective modules admit exact right Iv (R)-resolution. By using these facts, and thinking of the fact that the class of strongly V-Gorenstein injective modules is not closed under direct summand, it is proved that an R-module N is strongly V- Gorenstein injective if and only if N @ E is strongly V-Gorenstein injective for some V-injective module E. Finally, it is proved that an R-module N of finite V-Gorenstein injective injective dimension admits V-Corenstein injective preenvelope which leads to the fact that, for a natural integer n, Gorenstein V-injective injective dimension of N is bounded to n if and only if Ext Iv (R) (I, N) = 0 for all modules I with finite Iv (R)-injective dimension.展开更多
文摘Let R and S be associative rings and sVR a semidualizing (S-R)-bimodule. An R-module N is said to be V-Gorenstein injective if there exists a HomR(Zv(R),-) and HomR(-,Zv(R)) exact exact complex . of V-injective modules Ii and Ii,i ∈ N0, such that N We will call N to be strongly V-Gorenstein injective in case that all modules and homomorphisms in the above exact complex are equal, respectively. It is proved that the class of V-Gorenstein injective modules are closed under extension, direct summand and is a subset of the Auslander class ,4v(R) which leads to the fact that V-Gorenstein injective modules admit exact right Iv (R)-resolution. By using these facts, and thinking of the fact that the class of strongly V-Gorenstein injective modules is not closed under direct summand, it is proved that an R-module N is strongly V- Gorenstein injective if and only if N @ E is strongly V-Gorenstein injective for some V-injective module E. Finally, it is proved that an R-module N of finite V-Gorenstein injective injective dimension admits V-Corenstein injective preenvelope which leads to the fact that, for a natural integer n, Gorenstein V-injective injective dimension of N is bounded to n if and only if Ext Iv (R) (I, N) = 0 for all modules I with finite Iv (R)-injective dimension.
