TY - JOUR

T1 - Waring problem for finite quasisimple groups

AU - Larsen, Michael

AU - Shalev, Aner

AU - Tiep, Pham Huu

N1 - Funding Information:
This research was partially supported by NSF grants DMS-0800705 and DMS-1101424 (to M.L.), by the ERC Advanced grant 247034 (to A.S.), by a Bi-National Science Foundation United States-Israel grant 2008194 (to M.L. and A.S.). and also by NSF grant DMS-0901241 (to P.H.T.).

PY - 2013/1/1

Y1 - 2013/1/1

N2 - The classical Waring problem deals with expressing every natural number as a sum of g(k) kth powers. Similar problems for finite simple groups were studied recently, and in this paper we study them for finite quasisimple groups G. We show that for a fixed group word w≠1 and for G of sufficiently large order we have w(G)3=G, namely every element of G is a product of three values of w. For various families of finite quasisimple groups, including covers of alternating groups, we obtain a stronger result, namely w(G)2=G. However, in contrast with the case of simple groups studied in [14], we show that w(G)2=G need not hold for all large G; moreover, if k>2, then xkyk is not surjective on infinitely many finite quasisimple groups. The case k=2 turns out to be exceptional. Indeed, our last result shows that every element of a finite quasisimple group is a product of two squares. This can be regarded as a noncommutative analog of Lagrange's four squares theorem.

AB - The classical Waring problem deals with expressing every natural number as a sum of g(k) kth powers. Similar problems for finite simple groups were studied recently, and in this paper we study them for finite quasisimple groups G. We show that for a fixed group word w≠1 and for G of sufficiently large order we have w(G)3=G, namely every element of G is a product of three values of w. For various families of finite quasisimple groups, including covers of alternating groups, we obtain a stronger result, namely w(G)2=G. However, in contrast with the case of simple groups studied in [14], we show that w(G)2=G need not hold for all large G; moreover, if k>2, then xkyk is not surjective on infinitely many finite quasisimple groups. The case k=2 turns out to be exceptional. Indeed, our last result shows that every element of a finite quasisimple group is a product of two squares. This can be regarded as a noncommutative analog of Lagrange's four squares theorem.

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U2 - 10.1093/imrn/rns109

DO - 10.1093/imrn/rns109

M3 - Article

AN - SCOPUS:84878065989

SN - 1073-7928

VL - 2013

SP - 2323

EP - 2348

JO - International Mathematics Research Notices

JF - International Mathematics Research Notices

IS - 10

ER -