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INICIO |
27 de julio de 2024
Rings with zero intersection property on annihilators: Zip rings.
| Título inglés | Rings with zero intersection property on annihilators: Zip rings. |
|---|---|
| Título español | Anillos con propiedad de intersección cero sobre aniquiladores: Anillos Zip. |
| Autor/es | Faith, Carl |
| Organización | Dep. Math. Rutgers State Univ., New Brunswick (New Jersey), Estados Unidos |
| Revista | 0214-1493 |
| Publicación | 1989, 33 (2): 329-338, 14 Ref. |
| Tipo de documento | articulo |
| Idioma | Inglés |
| Resumen inglés | Zelmanowitz [12] introduced the concept of ring, which we call right zip rings, with the defining properties below, which are equivalent: (ZIP 1) If the right anihilator X^ of a subset X of R is zero, then X1^ = 0 for a finite subset X1 Í X. (ZIP 2) If L is a left ideal and if L^ = 0, then L1^ = 0 for a finitely generated left ideal L1 Í L. In [12], Zelmanowitz noted that any ring R satisfying the d.c.c. on anihilator right ideals (= dcc ^) is a right zip ring, and hence, so is any subring of R. He also showed by example that there exist zip rings which do not have dcc ^. In paragraph 1 of this paper, we characterize a right zip by the property that every injective right module E is divisible by every left ideal L such that L^ = 0. Thus, E = EL. (It suffices for this to hold for the injective hull of R). In paragraph 2 we show that a left and right self-injective ring R is zip iff R is pseudo-Frobenius (= PF). We then apply this result to show that a semiprime commutative ring R is zip iff R is Goldie. In paragraph 3 we continue the study of commutative zip rings. |
| Clasificación UNESCO | 120105 |
| Palabras clave español | Anillos |
| Código MathReviews | MR1030970 |
| Código Z-Math | Zbl 0702.16015 |
 Acceso al artículo completo |
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