Báo cáo toán học: " Some Remarks on Weak Amenability of Weighted Group Algebras"
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Trong [1] các tác giả xem xét các điều kiện ω ω đủ (n) (-n) = o (n) amenability yếu Beurling đại số trên các số nguyên. Trong bài báo này, chúng tôi cho thấy đặc tính này không khái quát được các nhóm abelian không.
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- 9LHWQDP -RXUQDO Vietnam Journal of Mathematics 33:3 (2005) 350–356 RI 0$7+(0$7,&6 9$67 Some Remarks on Weak Amenability of Weighted Group Algebras A. Pourabbas and M. R. Yegan Faculty of Mathematics and Computer Science, Amirkabir University of Technology, 424 Hafez Avenue, Tehran, Iran Received December 19, 2004 Abstract. In [1] the authors consider the sufficient condition ω (n)ω (−n) = o(n) for weak amenability of Beurling algebras on the integers. In this paper we show that this characterization does not generalize to non-abelian groups. 1. Introduction The Banach algebra A is amenable if H1 (A, X ) = 0 for every Banach A- bimodule X , that is, every bounded derivation D : A → X is inner. This definition was introduced by Johnson in (1972) [5]. The Banach algebra A is weakly amenable if H1 (A, A ) = 0. This definition generalizes the one which was introduced by Bade, Curtis and Dales in [1], where it was noted that a commutative Banach algebra A is weakly amenable if and only if H1 (A, X ) = 0 for every symmetric Banach A-bimodule X . In [7] Johnson showed that L1 (G) is weakly amenable for every locally com- pact group. In [9] Pourabbas proved that L1 (G, ω ) is weakly amenable whenever sup{ω (g )ω (g −1 ) : g ∈ G} < ∞. Grønbæk [3] proved that the Beurling algebra 1 (Z, ω ) is weakly amenable if and only if |n| : n ∈ Z = ∞. sup ω (n)ω (−n) In [3] he also characterized the weak amenability of 1 (G, ω ) for abelian group G. He showed that (∗) The Beurling algebra 1 (G, ω ) is weakly amenable if and only if
- 350 A. Pourabbas and M. R. Yegan |f (g )| :g∈G =∞ sup ω (g )ω (g −1 ) for all f ∈ HomZ (G, C)\{0}. The first author [8] generalizes the ’only if’ part of (∗) for non-abelian groups. Borwick in [2] showed that Grønbæk’s charac- terization does not generalize to non-abelian groups by exhibiting a group with non-zero additive functions but such that 1 (G, ω ) is not weakly amenable. For non-abelian groups, Borwick [2] gives a very interesting classification of weak amenability of Beurling algebras in term of functions defined on G. Theorem 1.1. [2, Theorem 2.23] Let 1 (G, ω ) be a weighted non-abelian group algebra and let {Ci }i∈I be the partition of G into conjugacy classes. For each i ∈ I , let Fi denote the set of nonzero functions ψ : G → C which are supported on Ci and such that ψ (XY ) − ψ (Y X ) : X, Y ∈ G, XY ∈ Ci < ∞. sup ω (X )ω (Y ) Then 1 (G, ω ) is weakly amenable if and only if for each i ∈ I every element of Fi is contained in ∞ (G, ω −1 ), that is, if and only if every ψ ∈ Fi satisfies ψ (XY X −1 ) < ∞, (Y ∈ Ci ). sup ω (XY X −1 ) X ∈G In [1] the authors consider the sufficient condition ω (n)ω (−n) = 0(n) for weak amenability of Beurling algebras on the integers. For abelian groups we have the following result: Proposition 1.2. Let G be a discrete abelian group and let ω be a weight on n −n G such that limn→∞ ω(g )ω(g ) = 0 for every g ∈ G. Then 1 (G, ω ) is weakly n amenable. Proof. If 1 (G, ω ) is not weakly amenable, then by [3, Corollary 4.8] there exists a φ ∈ Hom (G, C) \ {0} such that supg∈G ω(g|)ωgg| 1 ) = K < ∞. Hence for every φ( ) (− g∈G |φ(g n )| n|φ(g )| ≤ K, = ω (g n )ω (g −n ) ω (g n )ω (g −n ) ω ( g n ) ω ( g −n ) | φ(g )| ≥ or equivalently K. Therefore n ω (g )ω (g −n ) n |φ(g )| =0≥ , lim n K n→∞ which is a contradiction. Example 1.3. Let G be a subgroup of GL(2, R) defined by et1 t2 G= : t 1 , t2 ∈ R et1 0
- Some Remarks on Weak Amenability 351 and let ωα : G → R+ be defined by ωα (T ) = (et1 + |t2 |)α (α > 0). To show that ωα is a weight, let us consider et1 es1 t2 s2 T= S= . et1 es1 0 0 Then ωα (T S ) = (et1 +s1 + |t2 es1 + s2 et1 |)α ≤ (et1 +s1 + |t2 |es1 + |s2 |et1 + |s2 ||t2 |)α = (et1 + |t2 |)α (es1 + |s2 |)α = ωα (T )ωα (S ), 1 it is clear that ωα (I ) = 1. Also for 0 < α < we have 2 ωα (T n )ωα (T −n ) (ent1 + n|t2 |e(n−1)t1 )α (e−nt1 + n|t2 |e−(n+1)t1 )α = n n (1 + n|t2 |e−t1 )2α → 0 as n → ∞. = n 1 Therefore 1 (G, ωα ) is weakly amenable for 0 < α < 2. Note that in this example, we have sup {ωα (T )ωα (T −1 )} = (et1 + |t2 |)α (e−t1 + |t2 |e−2t1 )α sup T ∈G t1 ,t2 ∈R (1 + |t2 |e−t1 )2α = ∞, (α > 0). = sup t1 ,t2 ∈R 1 (G, ωα ) is not amenable. So by [4, Corollary 3.3] Question 1.4. Is the condition ω (g n )ω (g −n ) lim =0 (1.1) n n→∞ sufficient for weak amenability of Beurling algebras on the not necessarily abelian group G? It has been considered in [8] and [9]. Note that the condition sup{ω (g )ω (g −1 ) : g ∈ G} < ∞ implies the condition (1.1). 2. Main Results Our aim in this section is to answer negatively the question 1.4 by producing an example of a group G which satisfies the condition (1.1), but it is not weakly amenable. Example 2.1. Let H be a Heisenberg group of matrices of the form
- 352 A. Pourabbas and M. R. Yegan ⎡ ⎤ a1 a2 1 a = ⎣0 a3 ⎦ , 1 0 0 1 where a1 , a2 , a3 ∈ R. Let ⎡ ⎤ ⎡ ⎤ a1 a2 b1 b2 1 1 a = ⎣0 a3 ⎦ , b = ⎣0 b3 ⎦ . 1 1 0 0 1 0 0 1 Then we see that ⎡ ⎤ ⎡ ⎤ 1 a1 + b 1 a2 + b 2 + a1 b 3 − a1 a1 a3 − a2 1 ab = ⎣ 0 a3 + b 3 ⎦ , = ⎣0 − a3 ⎦ , a− 1 1 1 0 0 1 0 0 1 and for every n ≥ 2 ⎡ ⎤ ⎡ ⎤ n n 1 na1 i=1 ia1 a3 + na2 1 −na1 ia1 a3 − na2 i=1 an = ⎣ 0 na3 ⎦ , = ⎣0 −na3 ⎦ . a− n 1 1 0 0 1 0 0 1 Let define ωα : H → R+ by ωα (a) = (1 + |a3 |)α , (α > 0). Since ωα (ab) = (1 + |a3 + b3 |)α α ≤ 1 + |a3 | + |b3 | + |a3 ||b3 | = (1 + |a3 |)α (1 + |b3 |)α = ωα (a)ωα (b), then ωα is a weight on H , which satisfies the condition (1.1), because for every 0 < α < 1 , we have 2 α (1 + | − na3 |)α ωα (an )ωα (a−n ) 1 + |na3 | lim = lim n n n→∞ n→∞ 2α 1 + n|a3 | = 0. = lim n n→∞ Lemma 2.2. Suppose that 0 < α < 1 . Then 1 (H, ωα ) is not weakly amenable. 2 ⎡ ⎤ 1 e1 e2 Proof. Let e = ⎣ 0 1 e3 ⎦. The conjugacy class of e is denoted by e and has ˜ 001 the following form ⎡ ⎤ 1 e1 − a3 e 1 + e 2 + a1 e 3 ⎣0 1 e 3 ⎦ : a 1 , a2 , a3 ∈ R . e = aea−1 : a ∈ H = ˜ 00 1
- Some Remarks on Weak Amenability 353 ⎡ ⎤ ⎡ ⎤ 1 1 1 − a3 111 In particular if E = ⎣ 0 1 0 ⎦, then E = ⎣ 0 1 0 ⎦ : a3 ∈ R 001 00 1 If a, b ∈ H , then ab ∈ E if and only if a1 + b1 = 1 and a3 + b3 = 0. Note also that if ab ∈ E , then ba = a−1 (ab)a ∈ E . ⎡ ⎤ 1 a1 a2 Now define ψ : H → C by ψ (a) = |a2 |α , where a = ⎣ 0 1 a3 ⎦. Then 001 since a1 + b1 = 1 and a3 + b3 = 0, by replacing a3 by −b3 and a1 by 1 − b1 respectively, we get | |a2 +b2 +a1 b3 |α –|a2 +b2 +b1 a3 |α | |ψ (ab)–ψ (ba)| : ab ∈ E = sup ˜ sup (1+|a3 |)α (1+|b3 |)α ωα (a)ωα (b) a,b∈H | |a2 +b2 +b3 –b1 b3 |α –|a2 +b2 –b1 b3 |α | = sup (1+|b3 |)2α α |b3 | ≤ sup : b3 ∈ R < ∞. (2.1) (1 + |b3 |)2α But for every a ∈ H and b ∈ E we have ˜ ⎡ ⎤ 1 1 b 2 − a3 aba−1 = ⎣ 0 1 0 ⎦, 00 1 so |ψ (aba−1 )| = sup |b2 − a3 |α : a3 ∈ R = ∞. :a∈H sup ωα (aba−1 ) Thus by Theorem 1.1 if 0 < α < 1 , then 1 (H, ωα ) is not weakly amenable. 2 Borwick in [2] showed that Grønbæk’s characterization (∗) does not general- ize to non-abelian groups. Here we will give a simple example of a non-abelian group that satisfies condition of (∗), but 1 (G, ω ) is not weakly amenable. Example 2.3. Let H be a Heisenberg group on the integers. Consider the weight function ωα that was defined in ⎤ previous Example. Suppose φ ∈ the ⎡ 1rs Hom (H, C) \ {0}, and let a = ⎣ 0 1 t ⎦. Then a = E1 E2 E3 −rt , where rts 001 ⎡ ⎤ ⎡ ⎤ ⎡ ⎤ 1 1 0 1 00 10 1 E1 = ⎣ 0 0 ⎦ , E2 = ⎣ 0 1 1 ⎦ , E3 = ⎣ 0 1 0⎦. 1 0 0 1 0 01 00 1 Therefore |φ(a)| |rφ(E1 ) + tφ(E2 ) + (s − rt)φ(E3 )| . sup = sup (2.2) ωα (a)ωα (a−1 ) r,s,t∈Z (1 + |t|)2α a∈H
- 354 A. Pourabbas and M. R. Yegan Since φ = 0 without loss of generality we can assume that φ(E2 ) = 0, then for r = s = 0 the equation (2.2) reduces to |tφ(E2 )| 1 = ∞, 0
- Some Remarks on Weak Amenability 355 ∞ (G × G, ω −1 × ω −1 ): where χt is the characteristic function. We show that D ∈ ˜ | φt (g )χt (gh)| |D(g, h)| ˜ t∈Z (G) : g, h ∈ G = sup : g, h ∈ G sup ω (g )ω (h) ω (g )ω (h) |φt (g )| : g ∈ G, t ∈ Z (G) < ∞. = sup ω (g )ω (g −1 t ) Also D corresponds to the derivation D : 1 (G, ω ) → ∞ (G, ω −1 ) which satisfies ˜ equation (2.3). Since gh = t if and only if hg = t for every t ∈ Z (G), then D(gh, k ) = ˜ φt (gh)χt (ghk ) t∈Z (G) φt (g )χt (ghk ) + φt (h)χt (hkg ) = t∈Z (G) t∈Z (G) = D(g, hk ) + D(h, kg ). ˜ ˜ Finally let {φt }t∈Z (G) correspond to D and let D correspond to {φt }t∈Z (G) . ˜ ˜ Then φ t (g ) = D (g, g −1 t ) = φt (g )χt (gg −1 t ) = φt (g ). ˜ t∈Z (G) On the other hand if D corresponds to {φt }t∈Z (G) and if {φt }t∈Z (G) corresponds ˜ to D ˜ , then D (g, g −1 t)χt (gh) = D (g, h). D(g, h) = ˜ φt (g )χt (gh) = ˜ ˜ t∈Z (G) t∈Z (G) References 1. W. G. Bade, P. C. Curtis, Jr., and H. G. Dales, Amenability and weak amenabil- ity for Beurling and Lipschitz algebras, Proc. London Math. Soc. 55 (1987) 359–377. 2. C. R. Borwick, Johnson-Hochschild cohomology of weighted group algebras and augmentation ideals, Ph.D. thesis, University of Newcastle upon Tyne, 2003. 3. N. Grønbæk, A characterization of weak amenability, Studia Math. 94 (1989) 149–162. 4. N. Grønbæk, Amenability of weighted discrete convolution algebras on cancella- tive semigroups, Proc. Royal Soc. Edinburgh 110 A (1988) 351–360. 5. B. E. Johnson, Cohomology in Banach algebras, Mem. American Math. Soc. 127 (1972) 96. 6. B. E. Johnson, Derivations from L1 (G) into L1 (G) and L∞ (G), Lecture Notes in Math. 1359 (1988) 191–198.
- 356 A. Pourabbas and M. R. Yegan 7. B. E. Johnson, Weak amenability of group algebras, Bull. London Math. Soc. 23 (1991) 281–284. 8. A. Pourabbas, Second cohomology of Beurling algebras, Saitama Math. J. 17 (1999) 87–94. 9. A. Pourabbas, Weak amenability of Weighted group algebras, Atti Sem. Math. Fis. Uni. Modena 48 (2000) 299–316.
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