Nabil Kahouadji scite author profile

Nabil Kahouadji

4Publications

46Citation Statements Received

185Citation Statements Given

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Northeastern Illinois University, Northwestern University

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Second-order equations and local isometric immersions of pseudo-spherical surfaces

Kahouadji

Kamran

Tenenblat

2016

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We consider the class of differential equations that describe pseudo-spherical surfaces of the form ut = F (u, ux, uxx) and uxt = F (u, ux) given in Chern-Tenenblat [3] and Rabelo-Tenenblat [12]. We answer the following question: Given a pseudo-spherical surface determined by a solution u of such an equation, do the coefficients of the second fundamental form of the local isometric immersion in R 3 depend on a jet of finite order of u? We show that, except for the sine-Gordon equation, where the coefficients depend on a jet of order zero, for all other differential equations, whenever such an immersion exists, the coefficients are universal functions of x and t, independent of u.

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Local Isometric Immersions of Pseudo-Spherical Surfaces and Evolution Equations

Kahouadji

Kamran

Tenenblat

2015

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We consider the class of evolution equations that describe pseudo-spherical surfaces of the form ut = F (u, ∂u/∂x, ..., ∂ k u/∂x k ), k ≥ 2 classified by Chern-Tenenblat. This class of equations is characterized by the property that to each solution of a differential equation within this class, there corresponds a 2-dimensional Riemannian metric of curvature -1. We investigate the following problem: given such a metric, is there a local isometric immersion in R 3 such that the coefficients of the second fundamental form of the surface depend on a jet of finite order of u? By extending our previous result for second order evolution equation to k-th order equations, we prove that there is only one type of equations that admit such an isometric immersion. We prove that the coefficients of the second fundamental forms of the local isometric immersion determined by the solutions u are universal, i.e., they are independent of u. Moreover, we show that there exists a foliation of the domain of the parameters of the surface by straight lines with the property that the mean curvature of the surface is constant along the images of these straight lines under the isometric immersion.

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Second-order equations and local isometric immersions of pseudo-spherical surfaces

Kahouadji¹,

Kamran²,

Tenenblat³

2013

Preprint

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Local isometric immersions of pseudo-spherical surfaces and kth order evolution equations

Kahouadji

Kamran

Tenenblat

2019

Commun. Contemp. Math.

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We consider the class of evolution equations of the form [Formula: see text], [Formula: see text], that describe pseudo-spherical surfaces. These were classified by Chern and Tenenblat in [Pseudospherical surfaces and evolution equations, Stud. Appl. Math 74 (1986) 55–83.]. This class of equations is characterized by the property that to each solution of such an equation, there corresponds a 2-dimensional Riemannian metric of constant curvature [Formula: see text]. Motivated by the special properties of the sine-Gordon equation, we investigate the following problem: given such a metric, is there a local isometric immersion in [Formula: see text] such that the coefficients of the second fundamental form of the immersed surface depend on a jet of finite order of [Formula: see text]? We extend our earlier results for second-order evolution equations [N. Kahouadji, N. Kamran and K. Tenenblat, Local isometric immersions of pseudo-spherical surfaces and evolution equations, Fields Inst. Commun. 75 (2015) 369–381; N. Kahouadji, N. Kamran and K. Tenenblat, Second-order equations and local isometric immersions of pseudo-spherical surfaces, Comm. Anal. Geom. 24(3) (2016) 605–643.] to [Formula: see text]th order equations by proving that there is only one type of equation that admit such an isometric immersion. More precisely, we prove under the condition of finite jet dependency that the coefficients of the second fundamental forms of the local isometric immersion determined by the solutions [Formula: see text] are universal, i.e. they are independent of [Formula: see text]. Moreover, we show that there exists a foliation of the domain of the parameters of the surface by straight lines with the property that the mean curvature of the surface is constant along the images of these straight lines under the isometric immersion.

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Nabil Kahouadji

Second-order equations and local isometric immersions of pseudo-spherical surfaces

Local Isometric Immersions of Pseudo-Spherical Surfaces and Evolution Equations

Second-order equations and local isometric immersions of pseudo-spherical surfaces

Local isometric immersions of pseudo-spherical surfaces and kth order evolution equations

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