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W2895982949 abstract "We consider the one-dimensional Schrodinger equation on a ring, with the cubic term, of either self-attractive or repulsive sign, confined to a narrow segment. This setting can be realized in optics and Bose-Einstein condensates. For the nonlinearity coefficient represented by the $ensuremath{delta}$ function, all stationary states are obtained in an exact analytical form. The states with positive chemical potentials are found in alternating bands for the cases of the self-repulsion and attraction, while solutions with negative chemical potentials exist only in the latter case. These results provide a possibility to obtain exact solutions for band-gap states in the nonlinear system. Approximating the $ensuremath{delta}$ function by a narrow Gaussian, stability of the stationary modes is addressed through numerical computation of eigenvalues for small perturbations, and verified by simulations of the perturbed evolution. For positive chemical potentials, the stability is investigated in three lowest bands. In the case of the self-attraction, each band contains a stable subband, the transition to instability occurring with the increase of the total norm. As a result, multipeak states may be stable in higher bands. In the case of the self-repulsion, a single-peak ground state is stable in the first band, while the two higher ones are populated by weakly unstable two- and four-peak excited states. In the case of the self-attraction and negative chemical potentials, single-peak modes feature instability which transforms them into persistently oscillating states." @default.
W2895982949 created "2018-10-26" @default.
W2895982949 creator A5076846527 @default.
W2895982949 creator A5090892882 @default.
W2895982949 date "2018-11-05" @default.
W2895982949 modified "2023-09-25" @default.
W2895982949 title "Ring modes supported by concentrated cubic nonlinearity" @default.
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W2895982949 cites W1818085610 @default.
W2895982949 cites W1844242910 @default.
W2895982949 cites W1964933628 @default.
W2895982949 cites W1966664855 @default.
W2895982949 cites W1973671448 @default.
W2895982949 cites W1978426240 @default.
W2895982949 cites W1979681958 @default.
W2895982949 cites W1984987398 @default.
W2895982949 cites W1990557380 @default.
W2895982949 cites W1992151277 @default.
W2895982949 cites W1993933207 @default.
W2895982949 cites W1997584947 @default.
W2895982949 cites W1997853979 @default.
W2895982949 cites W1999211718 @default.
W2895982949 cites W2000382398 @default.
W2895982949 cites W2008893816 @default.
W2895982949 cites W2012472233 @default.
W2895982949 cites W2016611613 @default.
W2895982949 cites W2017620705 @default.
W2895982949 cites W2017825306 @default.
W2895982949 cites W2019265615 @default.
W2895982949 cites W2026557916 @default.
W2895982949 cites W2028536250 @default.
W2895982949 cites W2042604589 @default.
W2895982949 cites W2046250318 @default.
W2895982949 cites W2049503351 @default.
W2895982949 cites W2050263448 @default.
W2895982949 cites W2050974315 @default.
W2895982949 cites W2052963830 @default.
W2895982949 cites W2053033894 @default.
W2895982949 cites W2062868650 @default.
W2895982949 cites W2063045829 @default.
W2895982949 cites W2063164648 @default.
W2895982949 cites W2071241961 @default.
W2895982949 cites W2078211276 @default.
W2895982949 cites W2079031520 @default.
W2895982949 cites W2083825607 @default.
W2895982949 cites W2086686746 @default.
W2895982949 cites W2104933767 @default.
W2895982949 cites W2105273004 @default.
W2895982949 cites W2112353982 @default.
W2895982949 cites W2120292009 @default.
W2895982949 cites W2139583166 @default.
W2895982949 cites W2146005004 @default.
W2895982949 cites W2164921869 @default.
W2895982949 cites W2166911762 @default.
W2895982949 cites W2167768709 @default.
W2895982949 cites W2270809832 @default.
W2895982949 cites W2313486642 @default.
W2895982949 cites W2337197028 @default.
W2895982949 cites W2485771012 @default.
W2895982949 cites W2504375510 @default.
W2895982949 cites W2528719201 @default.
W2895982949 cites W2562128236 @default.
W2895982949 cites W2616550429 @default.
W2895982949 cites W2778993736 @default.
W2895982949 cites W2786312866 @default.
W2895982949 cites W2787003391 @default.
W2895982949 cites W2787598276 @default.
W2895982949 cites W2795835319 @default.
W2895982949 cites W2950945621 @default.
W2895982949 cites W3037000905 @default.
W2895982949 cites W3098580252 @default.
W2895982949 cites W3102735233 @default.
W2895982949 cites W3103076608 @default.
W2895982949 cites W3103122412 @default.
W2895982949 cites W3103743905 @default.
W2895982949 cites W3105238884 @default.
W2895982949 cites W4300907758 @default.
W2895982949 cites W649794155 @default.
W2895982949 doi "https://doi.org/10.1103/physreve.98.052203" @default.
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