One fixed point actions on spheres

Revision as of 20:37, 3 December 2010

1 Introduction

In connection with their work on fiberings with singularities, Montgomery and Samelson [Montgomery&Samelson1946] made a comment that when a compact Lie group $<!-- COMMENT: To achieve a unified layout, along with using the template below, please OBSERVE the following: besides, $...$ and $$...$$, you should use two environments: - For statements like Theorem, Lemma, Definition etc., use e.g. {{beginthm|Theorem 1|(Milnor)}} ... ... ... {{endthm}}. - For references, use e.g. {{cite|Milnor1958b}}. END OF COMMENT --> {{Stub}} == Introduction == <wikitex>; In connection with their work on fiberings with singularities, Montgomery and Samelson {{cite|Montgomery&Samelson1946}} made a comment that when a compact Lie group $G$ acts smoothly on a sphere in such a way as to have one fixed point, it is likely that there must be a second fixed point. Contrary to this speculation, suppose that a compact Lie group $G$ acts smoothly on a sphere $S^n$ with exactly one fixed point. Then, by removing from $S^n$ an invariant open disk neighborhood around the single fixed point, one obtains a smooth fixed point free action of $G$ on the disk $D^n$. Therefore, by the work of Oliver {{cite|Oliver1975}} and {{cite|Oliver1976}}, the identity connected component $G_0$ is non-abelian or the quotient group $G/G_0$ is an [[Group_actions_on_disks#Oliver_group|Oliver group]]. </wikitex> == Problem == <wikitex>; Which compact Lie groups $G$ can act smoothly on some sphere with exactly one fixed point? </wikitex> == Results so far == <wikitex>; *Stein {{cite|Stein1977}} has obtained for the first time smooth one fixed point actions on spheres. For $G=SL_2(\mathbb{F}_5)$ or $SL_2(\mathbb{F}_5)\times \mathbb{Z}_r$ with $(120, r)=1$, he constructed a smooth action of $G$ on the sphere $S^7$ with exactly one fixed point. *Petrie {{cite|Petrie1982}} described smooth one fixed point actions on spheres in the case the acting group $G$ is a finite abelian group of odd order and with three or more non-cyclic Sylow subgroups, as well as for $G=S^3$ or $SO(3)$. Moreover, he announced the existence of such actions for the non-solvable groups $SL_2(\mathbb{F}_q)$ and $PSL_2(\mathbb{F}_q)$, where $q\geq 5$ is a power of an odd prime. *Laitinen, Morimoto, and Pawałowski {{cite|Laitinen&Morimoto&Pawalowski1995}} proved that any finite non-solvable group $G$ can act smoothly on some sphere with exactly one fixed point. *Laitinen and Morimoto {{cite|Laitinen&Morimoto1998}} proved that any finite [[Group_actions_on_disks#Oliver_group|Oliver group]] $G$ can acts smoothly on some sphere with exactly one fixed point. </wikitex> == Further discussion == <wikitex>; ... </wikitex> == References == {{#RefList:}} [[Category:Problems]]G$ acts smoothly on a sphere in such a way as to have one fixed point, it is likely that there must be a second fixed point. Contrary to this speculation, suppose that a compact Lie group $G$ acts smoothly on a sphere $S^n$ with exactly one fixed point. Then, by removing from $S^n$ an invariant open disk neighborhood around the single fixed point, one obtains a smooth fixed point free action of $G$ on the disk $D^n$. So, by the work of Oliver [Oliver1975] and [Oliver1976], the identity connected component $G_0$ is non-abelian or the quotient group $G/G_0$ is an Oliver group. Therefore, it is natural to pose the following conjecture.

2 Problem

Which compact Lie groups $G$ can act smoothly on some sphere with exactly one fixed point?

3 Results so far

• Stein [Stein1977] has obtained for the first time smooth one fixed point actions on spheres. For $G=SL_2(\mathbb{F}_5)$ or $SL_2(\mathbb{F}_5)\times \mathbb{Z}_r$ with $(120, r)=1$, he constructed a smooth action of $G$ on the sphere $S^7$ with exactly one fixed point.
• Petrie [Petrie1982] described smooth one fixed point actions on spheres in the case the acting group $G$ is a finite abelian group of odd order and with three or more non-cyclic Sylow subgroups, as well as for $G=S^3$ or $SO(3)$. Moreover, he announced the existence of such actions for the non-solvable groups $SL_2(\mathbb{F}_q)$ and $PSL_2(\mathbb{F}_q)$, where $q\geq 5$ is a power of an odd prime.
• Laitinen, Morimoto, and Pawałowski [Laitinen&Morimoto&Pawalowski1995] proved that any finite non-solvable group $G$ can act smoothly on some sphere with exactly one fixed point.
• Laitinen and Morimoto [Laitinen&Morimoto1998] proved that any finite Oliver group $G$ can acts smoothly on some sphere with exactly one fixed point.

4 Further discussion

...

5 References

• [Laitinen&Morimoto&Pawalowski1995] E. Laitinen, M. Morimoto and K. Pawałowski, Deleting-inserting theorem for smooth actions of finite nonsolvable groups on spheres, Comment. Math. Helv. 70 (1995), no.1, 10–38. MR1314939 (96b:57043) Zbl 0843.57034
• [Laitinen&Morimoto1998] E. Laitinen and M. Morimoto, Finite groups with smooth one fixed point actions on spheres, Forum Math. 10 (1998), no.4, 479–520. MR1631012 (99k:57078) Zbl 0905.57023
• [Montgomery&Samelson1946] D. Montgomery and H. Samelson, Fiberings with singularities, Duke Math. J. 13 (1946), 51–56. MR0015794 (7,471a) Zbl 0060.41501
• [Oliver1975] R. Oliver, Fixed-point sets of group actions on finite acyclic complexes, Comment. Math. Helv. 50 (1975), 155–177. MR0375361 (51 #11556) Zbl 0304.57020
• [Oliver1976] R. Oliver, Smooth compact Lie group actions on disks, Math. Z. 149 (1976), no.1, 79–96. MR0423390 (54 #11369) Zbl 0334.57023
• [Petrie1982] T. Petrie, One fixed point actions on spheres. I, II, Adv. in Math. 46 (1982), no.1, 3–14, 15–70. MR676986 (84b:57027) Zbl 0502.57021
• [Stein1977] E. Stein, Surgery on products with finite fundamental group, Topology 16 (1977), no.4, 473–493. MR0474336 (57 #13982) Zbl 0383.57014