Higher dimensional generalization of the Benjamin‐Ono equation: 2D case

Riaño, Oscar; Roudenko, Svetlana; Yang, Kai

doi:10.1111/sapm.12448

Cited by 7 publications

(6 citation statements)

References 54 publications

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“…These identities can be obtained by similar arguments as in the proof of [75, Lemma 1]. We remark that to adapt the proof from [75], we require the following identities…”

Section: 7)mentioning

confidence: 95%

“…admits non-trivial solutions in H α 2 (R d ), for example, via Pohozhaev identities, see Lemma 2.9 and further details in [75] (here, we are only interested in real-valued and more precisely positive solutions). 6 We recall the following fractional Gagliardo-Nirenberg inequality ([14, p.168], [19, Theorem 1.3.7], [33]), which shows that any f ∈ H α 2 (R d ) also belongs to L m+1 (R d ) by interpolation:…”

Section: Preliminaries On the Ground Statementioning

confidence: 99%

“…In general, the fKdV equation in dimention d = 1 has been used in a variety of wave phenomena, and the lower dimensional case 0 < α < 1 has been investigated as a model to measure the influence of dispersive effects on the dynamics of Burger's equation. For other studies on the 1d fKdV equation, for example, see [7,45,64,74,65,77], for the higher dimensional fKdV, see [76,38,79,75], and reference therein.…”

Section: Introductionmentioning

confidence: 99%

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Stability and instability of solitary waves in fractional generalized KdV equation in all dimensions

Riaño¹,

Roudenko²

2022

Preprint

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We study stability properties of solitary wave solutions for the fractional generalized Korteweg-de Vries equationα + 1, we prove the orbital stability of solitary waves using the concentration-compactness argument, the commutator estimates and expansions of nonlocal operator D α in several variables. In the L 2 -supercritical case, 2d α + 1 < m < m * , we show that solitary waves are unstable. The instability is obtained by making use of an explicit sequence of initial conditions in conjunction with modulation and truncation arguments. This work maybe be of interest for studying solitary waves and other coherent structures in dispersive equations that involve nonlocal operators. The arguments developed here are independent of the spatial dimension and rely on a careful analysis of spatial decay of ground states and their regularity. In particular, in the one-dimensional setting, we show the instability of solitary waves of the supercritical generalized Benjamin-Ono equation and the dispersion-generalized Benjamin-Ono equation, furthermore, new results on the instability are obtained in the weaker dispersion regime 1 2 < α < 1.Contents 2 -instability Appendix References

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“…These identities can be obtained by similar arguments as in the proof of [75, Lemma 1]. We remark that to adapt the proof from [75], we require the following identities…”

Section: 7)mentioning

confidence: 95%

Section: Preliminaries On the Ground Statementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Stability and instability of solitary waves in fractional generalized KdV equation in all dimensions

Riaño¹,

Roudenko²

2022

Preprint

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“…The condition (1.10) also appears in the wellposedness result for the exponential initial condition in the work of Deléage and Linares [11]. In general, it seems that similar conditions to (1.10) are also needed in some studies of dispersive generalizations of the ZK equation, see the numerical investigations in [59] and the propagation of regularity results in [48].…”

mentioning

confidence: 89%

On decay properties for solutions of the Zakharov-Kuznetsov equation

Mendez¹,

Riaño²

2023

Preprint

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This work mainly focuses on the spatial decay properties of solutions to the Zakharov-Kuznetsov equation. In earlier studies for the two-and three-dimensional cases, it was established that if the initial condition u 0 verifies σ • x r u 0 ∈ L 2 ({σ • x ≥ κ}), for some r ∈ N, κ ∈ R, being σ be a suitable non-null vector in the Euclidean space, then the corresponding solution u(t) generated from this initial condition verifies σIn this regard, we first extend such results to arbitrary dimensions, decay power r > 0 not necessarily an integer, and we give a detailed description of the gain of regularity propagated by solutions in terms of the magnitude of the weight r. The deduction of our results depends on a new class of pseudo-differential operators, which is useful to quantify decay and smoothness properties on a fractional scale. Secondly, we show that if the initial data u 0 has a decay of exponential type on a particular half space, that is,, for all p ∈ N, and time t ≥ δ, where δ > 0. To our knowledge, this is the first study of such property. As a further consequence, we also obtain well-posedness results in anisotropic weighted Sobolev spaces in arbitrary dimensions.Finally, as a by-product of the techniques considered here, we show that our results are also valid for solutions of the Korteweg-de Vries equation.

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“…(We could consider higher polynomial decay as well, but this is the slowest rate of decay we are able to handle by numerics by using rational basis functions, see Appendix or [56], [55].) We take the computational domain [−L, L] large enough (L = 1600π) to approximate the actual solution on R. We point out that taking the larger values of L leads to similar numerical results.…”

Section: 31mentioning

confidence: 99%

Well-posedness and dynamics of solutions to the generalized KdV with low power nonlinearity

Friedman¹,

Riaño²,

Roudenko³

et al. 2022

Preprint

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We consider two types of the generalized Korteweg -de Vries equation, where the nonlinearity is given with or without absolute values, and, in particular, including the low powers of nonlinearity, an example of which is the Schamel equation. We first prove the local well-posedness of both equations in a weighted subspace of H 1 that includes functions with polynomial decay, extending the result of [39] to fractional weights. We then investigate solutions numerically, confirming the well-posedness and extending it to a wider class of functions that includes exponential decay. We include a comparison of solutions to both types of equations, in particular, we investigate soliton resolution for the positive and negative data with different decay rates. Finally, we study the interaction of various solitary waves in both models, showing the formation of solitons, dispersive radiation and even breathers, all of which are easier to track in nonlinearities with lower power.

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Higher dimensional generalization of the Benjamin‐Ono equation: 2D case

Cited by 7 publications

References 54 publications

Stability and instability of solitary waves in fractional generalized KdV equation in all dimensions

Stability and instability of solitary waves in fractional generalized KdV equation in all dimensions

On decay properties for solutions of the Zakharov-Kuznetsov equation

Well-posedness and dynamics of solutions to the generalized KdV with low power nonlinearity

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