Generation of vector rogue waves in repulsive three-component mixtures
ORAL
Abstract
Peregrine solitons are prominent examples of ephemeral rogue waves[1] appearing in
attractive nonlinear media, such as water waves, nonlinear optics and Bose-Einstein
condensates (BECs). Repulsive two-component imbalanced BECs were shown recently to
be ideal platforms for controllably realizing Peregrine solitons[2], avoiding the
complications stemming from the collapse of single component attractive BECs. The
reduction to an effective attractive single component lies at the heart of this realization.
We present a generalized reduction scheme for an arbitrary imbalanced N-component
repulsive setup, and demonstrate experimentally and theoretically the existence of vector
Peregrines in imbalanced three-component settings. Utilizing different 87Rb hyperfine
states, it is possible to realize multiple effective two-component BECs, with tunable
effective interactions. The latter give rise to a zoo of Peregrine solitons, even in the
coexistence of a double Peregrine per minority component.
References:
[1] M. Onorato et al, Phys. Rep. 528, 47 (2013).
[2] A. Romero-Ros et al, Phys. Rev. Lett. 132, 033402 (2024).
attractive nonlinear media, such as water waves, nonlinear optics and Bose-Einstein
condensates (BECs). Repulsive two-component imbalanced BECs were shown recently to
be ideal platforms for controllably realizing Peregrine solitons[2], avoiding the
complications stemming from the collapse of single component attractive BECs. The
reduction to an effective attractive single component lies at the heart of this realization.
We present a generalized reduction scheme for an arbitrary imbalanced N-component
repulsive setup, and demonstrate experimentally and theoretically the existence of vector
Peregrines in imbalanced three-component settings. Utilizing different 87Rb hyperfine
states, it is possible to realize multiple effective two-component BECs, with tunable
effective interactions. The latter give rise to a zoo of Peregrine solitons, even in the
coexistence of a double Peregrine per minority component.
References:
[1] M. Onorato et al, Phys. Rep. 528, 47 (2013).
[2] A. Romero-Ros et al, Phys. Rev. Lett. 132, 033402 (2024).
*We acknowledge funding from NSF through Grant No. PHY-2207588, support from a Boeing Endowed Professorship at WSU, support from the Missouri Science and Technology, Department of Physics, Startup fund, as well as the NSF under Grant No. PHY-2110030, PHY-2408988 and DMS-2204702.
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Presenters
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George Bougas
- Missouri University of Science & Technology