Hausdorff operators in H p spaces, 0 < p < 1
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1 Hausdorff operators in H p spaces, 0 < p < 1 Elijah Liflyand joint work with Akihiko Miyachi Bar-Ilan University June, 2018 Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
2 History For the theory of Hardy spaces H p, 0 < p < 1 the Hausdorff operators turn out to be a very effective testing area, in dimension one and especially in several dimensions. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
3 History For the theory of Hardy spaces H p, 0 < p < 1 the Hausdorff operators turn out to be a very effective testing area, in dimension one and especially in several dimensions. After publication of the paper by L-Móricz in 2000, Hausdorff operators have attracted much attention. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
4 History For the theory of Hardy spaces H p, 0 < p < 1 the Hausdorff operators turn out to be a very effective testing area, in dimension one and especially in several dimensions. After publication of the paper by L-Móricz in 2000, Hausdorff operators have attracted much attention. In contrast to the study of the Hausdorff operators in L p, 1 p, and in the Hardy space H 1, the study of these operators in the Hardy spaces H p with p < 1 holds a specific place and there are very few results on this topic. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
5 History For the theory of Hardy spaces H p, 0 < p < 1 the Hausdorff operators turn out to be a very effective testing area, in dimension one and especially in several dimensions. After publication of the paper by L-Móricz in 2000, Hausdorff operators have attracted much attention. In contrast to the study of the Hausdorff operators in L p, 1 p, and in the Hardy space H 1, the study of these operators in the Hardy spaces H p with p < 1 holds a specific place and there are very few results on this topic. In dimension one, after Kanjin, Miyachi, and Weisz, more or less final results were given in a joint paper by L-Miyachi. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
6 History For the theory of Hardy spaces H p, 0 < p < 1 the Hausdorff operators turn out to be a very effective testing area, in dimension one and especially in several dimensions. After publication of the paper by L-Móricz in 2000, Hausdorff operators have attracted much attention. In contrast to the study of the Hausdorff operators in L p, 1 p, and in the Hardy space H 1, the study of these operators in the Hardy spaces H p with p < 1 holds a specific place and there are very few results on this topic. In dimension one, after Kanjin, Miyachi, and Weisz, more or less final results were given in a joint paper by L-Miyachi. The results differ from those for L p, 1 p, and H 1, since they involve smoothness conditions on the averaging function, which seem unusual but unavoidable. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
7 Definitions Given a function φ on the half line (0, ), the Hausdorff operator H φ is defined by φ(t) (H φ f)(x) = f( x ) dt, x R. t t 0 Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
8 Definitions Given a function φ on the half line (0, ), the Hausdorff operator H φ is defined by φ(t) (H φ f)(x) = f( x ) dt, x R. t t 0 If 1 p, an application of Minkowski s inequality gives where H φ f L p (R) 0 A p (φ) = φ(t) 1 t f(ṫ) L p (R) dt = A p (φ) f L p (R), 0 φ(t) t 1+1/p dt. Thus, H φ is bounded in L p (R), 1 p, provided A p (φ) <. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
9 Definitions Given a function φ on the half line (0, ), the Hausdorff operator H φ is defined by φ(t) (H φ f)(x) = f( x ) dt, x R. t t 0 If 1 p, an application of Minkowski s inequality gives where H φ f L p (R) 0 A p (φ) = φ(t) 1 t f(ṫ) L p (R) dt = A p (φ) f L p (R), 0 φ(t) t 1+1/p dt. Thus, H φ is bounded in L p (R), 1 p, provided A p (φ) <. Notice that the above simple argument for using Minkowski s inequality cannot be applied to H p (R) with p < 1. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
10 Definitions Given a function φ on the half line (0, ), the Hausdorff operator H φ is defined by φ(t) (H φ f)(x) = f( x ) dt, x R. t t 0 If 1 p, an application of Minkowski s inequality gives where H φ f L p (R) 0 A p (φ) = φ(t) 1 t f(ṫ) L p (R) dt = A p (φ) f L p (R), 0 φ(t) t 1+1/p dt. Thus, H φ is bounded in L p (R), 1 p, provided A p (φ) <. Notice that the above simple argument for using Minkowski s inequality cannot be applied to H p (R) with p < 1. We shall simply say that H φ is bounded in H p (R) if H φ is well-defined in a dense subspace of H p (R) and if it is extended to a bounded operator in H p (R). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
11 Results Theorem A. (Kanjin) Let 0 < p < 1 and M = [1/p 1/2] + 1. Suppose A 1 (φ) <, A 2 (φ) <, and suppose φ (the Fourier transform of the function φ extended to the whole real line by setting φ(t) = 0 for t 0) is a function of class C 2M on R with sup ξ R ξ M φ (M) (ξ) < and sup ξ R ξ M φ (2M) (ξ) <. Then H φ is bounded in H p (R). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
12 Results Theorem A. (Kanjin) Let 0 < p < 1 and M = [1/p 1/2] + 1. Suppose A 1 (φ) <, A 2 (φ) <, and suppose φ (the Fourier transform of the function φ extended to the whole real line by setting φ(t) = 0 for t 0) is a function of class C 2M on R with sup ξ R ξ M φ (M) (ξ) < and sup ξ R ξ M φ (2M) (ξ) <. Then H φ is bounded in H p (R). Theorem B. (L-Miyachi) Let 0 < p < 1, M = [1/p 1/2] + 1, and let ɛ be a positive real number. Suppose φ is a function of class C M on (0, ) such that φ (k) (t) min{t ɛ, t ɛ }t 1/p k for k = 0, 1,..., M. Then H φ is bounded in H p (R). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
13 Results An immediate corollary of Theorems A and B is the following Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
14 Results An immediate corollary of Theorems A and B is the following Theorem C. Let 0 < p < 1 and M = [1/p 1/2] + 1. If φ is a function on (0, ) of class C M and supp φ is a compact subset of (0, ), then H φ is bounded in H p (R). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
15 Results An immediate corollary of Theorems A and B is the following Theorem C. Let 0 < p < 1 and M = [1/p 1/2] + 1. If φ is a function on (0, ) of class C M and supp φ is a compact subset of (0, ), then H φ is bounded in H p (R). It is noteworthy that the above theorems impose certain smoothness assumption on φ. In fact, this smoothness assumption cannot be removed since we have the next theorem. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
16 Results An immediate corollary of Theorems A and B is the following Theorem C. Let 0 < p < 1 and M = [1/p 1/2] + 1. If φ is a function on (0, ) of class C M and supp φ is a compact subset of (0, ), then H φ is bounded in H p (R). It is noteworthy that the above theorems impose certain smoothness assumption on φ. In fact, this smoothness assumption cannot be removed since we have the next theorem. Theorem D. (L-Miyachi) There exists a function φ on (0, ) such that φ is bounded, supp φ is a compact subset of (0, ), and, for every p (0, 1), the operator H φ is not bounded in H p (R). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
17 Special atomic decomposition - Miyachi Definition. Let 0 < p 1 and let M be a positive integer. For 0 < s <, we define A p,m (s) as the set of all those f L 2 (R n ) for which f(ξ) = 0 for ξ 1 s and D α f L 2 s α n p + n 2, α M. We define A p,m as the union of A p,m (s) over all 0 < s <. Lemma. Let 0 < p 1 and M be a positive integer satisfying M > n p n 2. Then there exists a constant c p,m, depending only on n, p and M, such that the following hold. (1) f( x 0 ) H p (R n ) c p,m for all f A p,m and all x 0 R n ; (2) Every f H p (R n ) can be decomposed as f = j=1 λ jf j ( x j ), where f j A p,m, x j R n, 0 λ j <, and ( ) 1 j=1 λp j p cp,m f H p (R n ), and the series converges in H p (R n ). If f H p L 2, then this decomposition can be made so that the series converges in L 2 as well. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
18 Recent attempts Weisz: in a product space, not sharp. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
19 Recent attempts Weisz: in a product space, not sharp. Dashan Fan and his collaborators: observing that in dimension one the Hausdorff operator H φ can be rewritten in a symmetric form (H φ f)(x) = 0 φ( x t )f(t) t dt, x R, Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
20 Recent attempts Weisz: in a product space, not sharp. Dashan Fan and his collaborators: observing that in dimension one the Hausdorff operator H φ can be rewritten in a symmetric form (H φ f)(x) = 0 φ( x t )f(t) t dt, x R, they study the following multidimensional operator u n Φ( x )f(u) du. R n u Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
21 Recent attempts Weisz: in a product space, not sharp. Dashan Fan and his collaborators: observing that in dimension one the Hausdorff operator H φ can be rewritten in a symmetric form (H φ f)(x) = 0 φ( x t )f(t) t dt, x R, they study the following multidimensional operator u n Φ( x )f(u) du. R n u There are many objections, the main one it is not a Hausdorff operator! Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
22 Recent attempts Weisz: in a product space, not sharp. Dashan Fan and his collaborators: observing that in dimension one the Hausdorff operator H φ can be rewritten in a symmetric form (H φ f)(x) = 0 φ( x t )f(t) t dt, x R, they study the following multidimensional operator u n Φ( x )f(u) du. R n u There are many objections, the main one it is not a Hausdorff operator! R n u n Φ(u)f( x u ) du is but indeed is not bounded in any H p (R n ) with p < 1. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
23 More general operators Before proceeding to the multivariate case, consider a somewhat more advanced one-dimensional version of the Hausdorff operator, apparently first introduced by Kuang: ϕ(t) (Hf)(x) = (H ϕ,a f)(x) = R + a(t) f( x a(t) ) dt, where a(t) > 0 and a (t) > 0 for all t R + except maybe t = 0. Theorem E. Let 0 < p < 1, M = [1/p 1/2] + 1, and let ɛ be a positive real number. Suppose ϕ is a function of class C M on (0, ) such that ϕ and a satisfy the compatibility condition ( ) 1 d k ϕ(t) a (t) dt a (t) min{ a(t) ɛ, a(t) ɛ } a(t) 1/p k for k = 0, 1,..., M. Then H ϕ, a is a bounded linear operator in H p. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
24 Multidimensional case We consider the operator H Φ,A defined as follows. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
25 Multidimensional case We consider the operator H Φ,A defined as follows. Let N, n N, let Φ : R N C and A : R N M n (R) be given, where M n (R) denotes the class of all n n real matrices. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
26 Multidimensional case We consider the operator H Φ,A defined as follows. Let N, n N, let Φ : R N C and A : R N M n (R) be given, where M n (R) denotes the class of all n n real matrices. Assuming the matrix A(u) be nonsingular for almost every u with Φ(u) 0, we define H Φ,A by (H Φ,A f)(x) = Φ(u) det A(u) 1 f(x t A(u) 1 ) du, x R n, R N Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
27 Multidimensional case We consider the operator H Φ,A defined as follows. Let N, n N, let Φ : R N C and A : R N M n (R) be given, where M n (R) denotes the class of all n n real matrices. Assuming the matrix A(u) be nonsingular for almost every u with Φ(u) 0, we define H Φ,A by (H Φ,A f)(x) = Φ(u) det A(u) 1 f(x t A(u) 1 ) du, x R n, R N where t A(u) 1 denotes the inverse of the transpose of the matrix A(u), and x t A(u) 1 denotes the row n-vector obtained by multiplying the row n-vector x by the n n matrix t A(u) 1. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
28 Multidimensional case We consider the operator H Φ,A defined as follows. Let N, n N, let Φ : R N C and A : R N M n (R) be given, where M n (R) denotes the class of all n n real matrices. Assuming the matrix A(u) be nonsingular for almost every u with Φ(u) 0, we define H Φ,A by (H Φ,A f)(x) = Φ(u) det A(u) 1 f(x t A(u) 1 ) du, x R n, R N where t A(u) 1 denotes the inverse of the transpose of the matrix A(u), and x t A(u) 1 denotes the row n-vector obtained by multiplying the row n-vector x by the n n matrix t A(u) 1. The Fourier transform of H Φ,A f is (formally) calculated from the definition as (H Φ,A f) (ξ) = Φ(u) f(ξa(u)) du, ξ R n. (1) R N Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
29 Multidimensional case We consider the operator H Φ,A defined as follows. Let N, n N, let Φ : R N C and A : R N M n (R) be given, where M n (R) denotes the class of all n n real matrices. Assuming the matrix A(u) be nonsingular for almost every u with Φ(u) 0, we define H Φ,A by (H Φ,A f)(x) = Φ(u) det A(u) 1 f(x t A(u) 1 ) du, x R n, R N where t A(u) 1 denotes the inverse of the transpose of the matrix A(u), and x t A(u) 1 denotes the row n-vector obtained by multiplying the row n-vector x by the n n matrix t A(u) 1. The Fourier transform of H Φ,A f is (formally) calculated from the definition as (H Φ,A f) (ξ) = Φ(u) f(ξa(u)) du, ξ R n. (1) R N To be precise, we have to put some conditions on Φ, A, and f so that H Φ,A f is well-defined and the formula (1) holds. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
30 Definitions We give preliminary argument concerning the definition of H Φ,A and formula (1). For functions Φ : R N C, A : R N M n (R), and f : R n C, consider (H Φ,A f)(x) = Φ(u) det A(u) 1 f(x t A(u) 1 ) du, x R n, R N and ( H Φ,A f)(x) = Φ(u)f(xA(u)) du, x R n. R N We always assume that Φ, A, and f are Borel measurable functions. Defining L A (Φ) = Φ(u) det A(u) 1/2 du, R N we have the following. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
31 Definitions Proposition. If L A (Φ) <, then for all f L 2 (R n ) the functions H Φ,A f and H Φ,A f are well-defined almost everywhere on R n and the inequalities H Φ,A f L 2 (R n ) L A (Φ) f L 2 (R n ) and H Φ,A f L 2 (R n ) L A (Φ) f L 2 (R n ) hold. Thus H Φ,A and H Φ,A are well-defined bounded operators in L 2 (R n ) if L A (Φ) <. The next proposition gives the formula (1). Proposition. If L A (Φ) <, then (H Φ,A f) = H Φ,A f for all f L 2 (R n ). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
32 Guess On account of Theorems C and D, one may suppose that the multidimensional operator H Φ,A is bounded in H p (R n ), 0 < p < 1, if one merely assumes Φ and A to be sufficiently smooth and Φ to be with compact support. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
33 Guess On account of Theorems C and D, one may suppose that the multidimensional operator H Φ,A is bounded in H p (R n ), 0 < p < 1, if one merely assumes Φ and A to be sufficiently smooth and Φ to be with compact support. However, this naive generalization of Theorem C is false. There are examples of smooth Φ with compact support and smooth A for which H Φ,A is not bounded in the Hardy space H p (R n ), 0 < p < 1, n 2. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
34 Guess On account of Theorems C and D, one may suppose that the multidimensional operator H Φ,A is bounded in H p (R n ), 0 < p < 1, if one merely assumes Φ and A to be sufficiently smooth and Φ to be with compact support. However, this naive generalization of Theorem C is false. There are examples of smooth Φ with compact support and smooth A for which H Φ,A is not bounded in the Hardy space H p (R n ), 0 < p < 1, n 2. This leads to conclusion that A, or Φ, or both of them should be subject to additional assumptions. The nature and type of such assumptions is, in a sense, the main issue, or, say, spirit of our work. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
35 Guess On account of Theorems C and D, one may suppose that the multidimensional operator H Φ,A is bounded in H p (R n ), 0 < p < 1, if one merely assumes Φ and A to be sufficiently smooth and Φ to be with compact support. However, this naive generalization of Theorem C is false. There are examples of smooth Φ with compact support and smooth A for which H Φ,A is not bounded in the Hardy space H p (R n ), 0 < p < 1, n 2. This leads to conclusion that A, or Φ, or both of them should be subject to additional assumptions. The nature and type of such assumptions is, in a sense, the main issue, or, say, spirit of our work. Indeed, for positive results, we introduce an algebraic condition on A and prove the Hardy space boundedness of H Φ,A. This is a generalization of Theorem C to the multidimensional case. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
36 Multidimensional result Theorem. Let n N, n 2, 0 < p < 1, and M = [n/p n/2] + 1. Let N N, Φ : R N C be a function of class C M with compact support, and A : R N M n (R) be a mapping of class C M+1. Assume the matrix A(u) is nonsingular for all u suppφ. Also assume Φ and A satisfy the following condition: for all (u, y, ξ) suppφ Σ n 1 Σ n 1, there exists a j = j(u, y, ξ) {1,..., N} such that y, ξ A(u) (2) 0, u j where Σ = Σ n 1 = {x R n : x = 1}. Then the operator H Φ,A is bounded in H p (R n ). Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
37 Condition in dimension two u = (u 1, u 2 ) j := u j j = 1, 2 ( ) A(u) j a = 11 (u) j a 12 (u) u j j a 21 (u) j a 22 (u) Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
38 Condition in dimension two u = (u 1, u 2 ) j := u j j = 1, 2 ( ) A(u) j a = 11 (u) j a 12 (u) u j j a 21 (u) j a 22 (u) (cos y, sin y) in place of y and (cos ξ, sin ξ) in place of ξ Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
39 Condition in dimension two u = (u 1, u 2 ) j := u j j = 1, 2 ( ) A(u) j a = 11 (u) j a 12 (u) u j j a 21 (u) j a 22 (u) (cos y, sin y) in place of y and (cos ξ, sin ξ) in place of ξ Condition: for some j (cos ) ( ) A(u) y, sin y, cos ξ, sin ξ u j = (cos y, sin y ), ( cos ξ j a 11 (u) + sin ξ j a 21 (u), cos ξ j a 12 (u) + sin ξ j a 22 (u) ) =cos ycos ξ j a 11 (u) + cos ysin ξ j a 21 (u) +sin ycos ξ j a 12 (u) + sin ysin ξ j a 22 (u) Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
40 Examples unbounded Example Let Φ be a nonnegative smooth function on (0, ) with compact support. Assume Φ(s) > 1 for 1 < s < 2. Then, for n 2 and 0 < p < 1, the operator (Hf)(x) = 0 Φ(s)f(sx) ds, x R n, is not bounded in H p (R n ). Let SO(n, R) be the Lie group of real n n orthogonal matrices with determinant 1 and let µ be the Haar measure on SO(n, R). Example For n 2 and 0 < p < 1, the operator (Hf)(x) = f(xp ) dµ(p ), x R n, is not bounded in H p (R n ). SO(n,R) Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
41 Example bounded Example below should be compared with the preceding examples; the difference is only more dimensions for averaging but the result is quite opposite. Example Let n N, n 2, 0 < p < 1, and M = [n/p n/2] + 1. Let Φ : (0, ) SO(n, R) C be a function of class C M with compact support. Then the operator (Hf)(x) = Φ(s, P )f(sxp ) dsdµ(p ), x R n, is bounded in H p (R n ). (0, ) SO(n,R) Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
42 Dimensions We give some remarks concerning the number N in the condition (2). To simplify notation, we write B j = A(u) u j. Thus B 1,..., B N are n n real matrices. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
43 Dimensions We give some remarks concerning the number N in the condition (2). To simplify notation, we write B j = A(u) u j. Thus B 1,..., B N are n n real matrices. We consider the following condition: { for all (y, ξ) Σ n 1 Σ n 1, there exists a j {1,..., N} such that y, ξb j 0. (3) Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
44 Dimensions We give some remarks concerning the number N in the condition (2). To simplify notation, we write B j = A(u) u j. Thus B 1,..., B N are n n real matrices. We consider the following condition: { for all (y, ξ) Σ n 1 Σ n 1, there exists a j {1,..., N} such that y, ξb j 0. We shall say that (3) is possible if there exist B 1,..., B N M n (R) which satisfy (3). (3) Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
45 Dimensions We give some remarks concerning the number N in the condition (2). To simplify notation, we write B j = A(u) u j. Thus B 1,..., B N are n n real matrices. We consider the following condition: { for all (y, ξ) Σ n 1 Σ n 1, there exists a j {1,..., N} such that y, ξb j 0. We shall say that (3) is possible if there exist B 1,..., B N M n (R) which satisfy (3). The following statement is valid. Proposition. (1) The condition (3) is possible only if N n. (2) If n is odd and n 3, then (3) is possible only if N n + 1. (3) For all n 2, the condition (3) is possible with N = 1 + n(n 1)/2. If n 4, then (3) is possible with an N < 1 + n(n 1)/2. Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19 (3)
46 Bibliography J. Chen, D. Fan and S. Wang, Hausdorff Operators on Euclidean Spaces, Appl. Math. J. Chinese Univ. (Ser. B) (4) 28 (2014), J. Chen, D. Fan, X. Lin, and J. Ruan, The fractional Hausdorff operators on the Hardy spaces H p (R n ), Analysis Math., 42 (1) (2016), Y. Kanjin, The Hausdorff operators on the real Hardy spaces H p (R), Studia Math. 148 (2001), A. Lerner and E. Liflyand, Multidimensional Hausdorff operators on the real Hardy space, J. Austr. Math. Soc. 83 (2007), E. Liflyand, Boundedness of multidimensional Hausdorff operators on H 1 (R n ), Acta. Sci. Math. (Szeged) 74 (2008), E. Liflyand, Hausdorff Operators on Hardy Spaces, Eurasian Math. J. 4 (2013), no. 4, Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
47 Bibliography E. Liflyand and F. Móricz, The Hausdorff operator is bounded on the real Hardy space H 1 (R), Proc. AMS 128 (2000), E. Liflyand and A. Miyachi, Boundedness of the Hausdorff operators in H p spaces, 0 < p < 1, Studia Math. 194(3) (2009), E. Liflyand and A. Miyachi, Boundedness of multidimensional Hausdorff operators in H p spaces, 0 < p < 1, to appear in the Trans. Amer. Math. Soc. A. Miyachi, Weak factorization of distributions in H p spaces, Pacific J. Math. 115 (1984), A. Miyachi, Boundedness of the Cesàro operator in Hardy Spaces, J. Fourier Anal. Appl. 10 (2004), F. Weisz, The boundedness of the Hausdorff operator on multi-dimensional Hardy spaces, Analysis 24 (2004), Elijah Liflyand joint work with Akihiko Miyachi (Bar-Ilan University) Hausdorff Operators June, / 19
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