Global well-posedness of the Majda-Biello system in the resonant case on the real line
Abstract: We study the Cauchy problem for the following Majda-Biello system in the case $\alpha=4$, which has the most significant resonance effect, on the real line. [ \left{ \begin{array}{l} u_{t} + u_{xxx} = - v v_x, v_{t} + \alpha v_{xxx} = - (uv){x}, (u,v)|{t=0} = (u_0,v_0) \in H{s}(\mathbb{R}) \times H{s}(\mathbb{R}), \end{array} \right. \quad x \in \mathbb{R}, \, t \in \mathbb{R}. ] For Sobolev regularity $s\in[\frac34, 1)$, we establish the global well-posedness by refining the I-method. Previously, the critical index for the local well-posedness was known to be $\frac34$, while the global well-posedness was only obtained for $s\geq 1$. Our global well-posedness result bridges the gap and matches the threshold in the local theory. The main novelty of our approach is to introduce a pair of distinct $I$-operators, tailored to the resonant structure of the Majda-Biello system with $\alpha=4$. This dual-operator framework allows for pointwise control of the multipliers in the modified energies constructed via the multilinear correction technique. These modified energies are almost conserved and provide effective control over the Sobolev norm of the solution globally in time. This new approach has potential applications to other coupled dispersive systems exhibiting strong resonant interactions.
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