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    ON (a ,3)-METRICS OF CONSTANT FLAG CURVATURE*

    2023-01-09 10:53:58GuangzuCHEN陳光祖
    關鍵詞:光祖

    Guangzu CHEN (陳光祖)

    School of Science,East China JiaoTong Uniuersity,Nanchang 330013,China E-mail : chenguangzu1@163.com Xinyue CHENG(程新躍)*

    School of Mathematical Sciences,Chongqing Normal Universitg,Chongqing 401331,China E-mail: chengxy@cqnu.edu.cn

    The study of Finsler metrics of constant flag curvature has a long history. In 1977, H.Yasuda and H. Shimada studied the classification problem on Randers metrics of constant flag curvature([12]). Later,D.Bao,C.Robles and Z.Shen completely classified Randers metrics of constant flag curvature by using the navigation technique([3]). Furthermore,R.Yoshikawa and S. V. Sabau obtained the classification theorem on Kropina metrics of constant flag curvature([8]). In addition to this, L. Zhou proved that the square metrics of constant flag curvature must be projectively flat ([13]). In [11], Shen-Yildirim classified the projectively flat square metrics of constant flag curvature. Thus the local constructions of square metrics of constant flag curvature have been determined completely. However,the local constructions of the(α,β)-metrics of constant flag curvature are still not clear,except for Randers metrics,Kropina metrics and square metrics.

    For the discussions that follow, we need to clarify some notations for (α,β)-metrics. Let

    Furthermore, put

    where“|”denotes the covariant derivative with respect to α. Let s0:=siyi, si0:=sijyj, r00:=rijyiyj, etc.. We say that β is a homothetic 1-form with respect to α if rij= caij, where c is a constant. We say that β is a Killing 1-form with respect to α if c=0. When c/=0, we have the following theorem:

    Theorem 1.1 Let F =αφ(β/α) be an almost regular (α,β)-metric of non-Randers type on a manifold M. Suppose that β is a homothetic 1-form with respect to α satisfying that

    It is easy to see that b= constant if and only if ri+si=0. If rij=0 and si=0, then β is a Killing 1-form with constant length. In this case, we have the following result:

    Theorem 1.2 Let F = αφ(β/α) be a regular (α,β)-metric of non-Randers type on a manifold M. Suppose that F is of constant flag curvature and that β is a Killing 1-form with constant length. Then F must be a locally Minkowskian.

    From the proof of Theorem 1.2, the following is obvious:

    Corollary 1.3 Let F = αφ(β/α) be a regular (α,β)-metric on a manifold M. Suppose that F is of constant flag curvature and that β is a Killing 1-form with constant length. Then F must be a Riemannian metric or locally Minkowskian.

    2 Preliminaries

    Let F be a Finsler metric on an n-dimensional manifold M. The geodesic coefficients Giof F are defined by ([5])

    According to Deicke’s theorem, a Finsler metric is Riemannian if and only if the mean Cartan torsion vanishes ([10]).

    and

    By a direct computation, we can obtain the following formula about the mean Cartan torsion of (α,β)-metric F ([4]):

    3 The Discussions About Equation (2.4)

    When a Finsler metric F is of constant flag curvature K, (2.4) becomes

    Now we assume that β is a homothetic 1-form,that is,that rij=caij,where c is a constant,so

    Then, by (3.6)-(3.12), we have the following result:

    Proposition 3.1 Let F = αφ(β/α) be an almost regular (α,β)-metric of constant flag curvature. Suppose that β is a homothetic 1-form with rij=caij. Then it holds that

    Plugging (3.10), (3.12), (3.19) and (3.18) into (3.6) and by using the Maple program, we can get (3.13) easily. □

    4 Discussion of Equation (2.12)

    Let F = αφ(β/α) be an (α,β)-metric on a manifold M. Suppose that β is a homothetic 1-form, that is, rij=caij, where c is a constant. It follows from (2.7), (2.10) and (2.11) that

    When F is of constant flag curvature K, then substituting (4.3)-(4.7) into (2.12), we can get the following proposition:

    Proposition 4.1 Let F =αφ(β/α)be an almost regular(α,β)-metric with a homothetic 1-form β on a manifold M. If F is of constant flag curvature, then it holds that

    5 Proof of Theorem 1.1

    First, we will give some necessary lemmas.

    Lemma 5.1 Let F = αφ(β/α) be an (α,β)-metric of non-Randers type on a manifold M. If φ=φ(s) satisfies that

    where C1and C2are constant.

    Furthermore, we have the following lemma:

    Lemma 5.3 Let F = αφ(β/α) be an almost regular (α,β)-metric of non-Randers type on a manifold M. Suppose that

    where c is a non-zero constant. If F is of constant flag curvature,then β is closed and φ satisfies that

    which implies that Λ = k(B)φ. It follows from (5.9) and Lemma 5.2 that [k(B)]B= 0, which implies that k(B) is a constant. By Lemma 5.1, we get r0+s0=0, which contradict the fact that c/=0. Thus sQΛs+Λs-QΛ/=0. Then (5.10) implies that sij=0. □

    Now we are in the position to prove Theorem 1.1. Under the conditions of Theorem 1.1,by Lemma 5.3, equation (1.2) holds and β is closed. Thus we only need to prove that equation(1.3) holds.

    6 Proof of Theorem 1.2

    which contradicts the assumption by Lemma 6.1. Thus K = 0. It follows from (6.4) that si0si0=0, that is, that aijsi0sj0=0. Then we have sij=0. In this case, rij=sij=0, which implies, by (2.7), that F is a Berwald metric. Hence F is locally Minkowskian. □

    7 An Example

    Usually, it is difficult to solve (1.2). In this section, we will determine the solution of(1.2) under the condition that Λ=f(s)g(B), where f(s) and g(B) are non-constant functions depending only on s and B, respectively.

    First, when Q'=0, it is easy to check that

    where λ is a non-zero constant and a=(ai) is a constant vector in Rn. In this case,

    which means that (1.1) holds. Furthermore, we can check that φ=1/s satisfies equation(1.2).In fact, it is easy to see that φ = 1/s also satisfies equation (1.3) with k = 0. The metric F = α2/β is called a Kropina metric. The Kropina metrics of constant flag curvature have been classified in [8].

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