In this paper, we investigate the nonlinear Schödinger equations with
cubic interactions, arising in nonlinear optics. To begin, we prove the
existence results for normalized ground state solutions in the L 2
-subcritical case and L 2 -supercritical case respectively. Our proofs
relies on the Concentration-compactness principle, Pohozaev manifold and
rearrangement technique. Then, we establish the nonexistence of
normalized ground state solutions in the L 2 -critical case by finding
that there exists a threshold. In addition, based on the existence of
the normalized solutions, we also establish the blow-up results are
shown by using localized virial estimates, and a new blow-up criterion
which is related to normalized solutions.
In this paper, we investigate the nonlinear Schödinger equations with cubic interactions, arising in nonlinear optics. To begin, we prove the existence results for normalized ground state solutions in the subcritical case and
‐supercritical case, respectively. Our proofs relies on the Concentration‐compactness principle, Pohozaev manifold, and rearrangement technique. Then, we establish the nonexistence of normalized ground state solutions in the
‐critical case by finding that there exists a threshold. In addition, based on the existence of the normalized solutions, we also establish the blow‐up results by using localized virial estimates as well as a new blow‐up criterion which is related to normalized solutions.
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