[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.11568/kjm.2019.27.1.141

ON A RING PROPERTY RELATED TO NILRADICALS

Jin, Hai-lan (Department of Mathematics Yanbian University)
Piao, Zhelin (Department of Mathematics Yanbian University)
Yun, Sang Jo (Department of Mathematics Dong-A University)

Publication Information

Korean Journal of Mathematics / v.27, no.1, 2019 , pp. 141-150 More about this Journal

Abstract

In this article we investigate the structure of rings in which lower nilradicals coincide with upper nilradicals. Such rings shall be said to be quasi-2-primal. It is shown first that the $K{\ddot{o}}the^{\prime}s$ conjecture holds for quasi-2-primal rings. So the results in this article may provide interesting and useful information to the study of nilradicals in various situations. In the procedure we study the structure of quasi-2-primal rings, and observe various kinds of quasi-2-primal rings which do roles in ring theory.

Keywords

equal-nilradical ring; $K{\ddot{o}}the^{\prime}s$ conjecture; lower nilradical; upper nilradical; Jacobson radical; polynomial ring; matrix ring; factor ring;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	V. Camillo and P.P. Nielsen, McCoy rings and zero-divisors, J. Pure Appl. Algebra 212 (2008), 599-615. DOI
2	V. Camillo, C.Y. Hong, N.K. Kim, Y. Lee, and P.P. Nielsen, Nilpotent ideals in polynomial and power series rings, Proc. Amer. Math. Soc. 138 (2010), 1607-1619. DOI
3	K.R. Goodearl, Von Neumann Regular Rings, Pitman, London, 1979.
4	S.U. Hwang, Y.C, Jeon, and Y. Lee, Structure and topological conditions of NI rings, J. Algebra 302 (2006), 186-199. DOI
5	Y.C. Jeon, H.K. Kim, Y. Lee, and J.S. Yoon, On weak Armendariz rings, Bull. Korean Math. Soc. 46 (2009), 135-146. DOI
6	N.K. Kim, K.H. Kim, and Y. Lee, Power series rings satisfying a zero divisor property, Comm. Algebra 34 (2006), 2205-2218. DOI
7	N.K. Kim and Y. Lee, Armendariz rings and reduced rings, J. Algebra 223 (2000), 477-488. DOI
8	G. Kothe, Die Struktur der Ringe deren Restklassenring nach dem Radikal vollstanding irreduzibel ist, Math. Z. 32 (1930), 161-186. DOI
9	J. Krempa, Logical connections among some open problems concerning nil rings, Fund. Math. 76 (1972), 121-130. DOI
10	T.Y. Lam, A First Course in Noncommutative Rings, Springer-Verlag, New York, 1991.
11	G. Marks, On 2-primal Ore extensions, Comm. Algebra 29 (2001), 2113-2123. DOI
12	G. Marks, A taxonomy of 2-primal rings, J. Algebra 266 (2003), 494-520. DOI
13	J.V. Neumann, On regular rings, Proceedngs of the National Academy of Sciences, 22 (1936), 707-713.
14	M.B. Rege and S. Chhawchharia, Armendariz rings, Proc. Japan Acad. Ser. A Math. Sci. 73 (1997), 14-17.
15	L.H. Rowen, Ring Theory, Academic Press, San Diego, 1991.
16	A.D. Sands, Radical and Morita contex, J. Algebra 24 (1973), 335-345. DOI
17	G.F. Birkenmeier, H.E. Heatherly, and E.K. Lee, Completely prime ideals and associated radicals, Proc. Biennial Ohio State-Denison Conference 1992, edited by S. K. Jain and S. T. Rizvi, World Scientific, Singapore-New Jersey-London-Hong Kong (1993), 102-129.
18	D.D. Anderson and V. Camillo, Armendariz rings and Gaussian rings, Comm. Algebra 26 (1998), 2265-2272. DOI
19	R. Antoine, Nilpotent elements and Armendariz rings, J. Algebra 319 (2008), 3128-3140. DOI
20	E.P. Armendariz, A note on extensions of Baer and P.P.-rings, J. Austral. Math. Soc. 18 (1974), 470-473. DOI
21	G.F. Birkenmeier, J.Y. Kim, and J.K. Park, Regularity conditions and the simplicity of prime factor rings, J. Pure Appl. Algebra 115 (1997), 213-230. DOI