Generation of dissipative and non-dissipative matter-wave soliton trains in spin-orbit coupled bose-einstein condensates

Abstract:

The first experimental observation of spin-orbit (SO) coupling in Bose Einstein Con densates (BECs) provided an interesting new platform to explore a fascinating and

growing field of research and lead to rich physical e↵ects. In ultracold atomic sys tems,the synthetic SO coupling can be generated using two counter-propagating Ra man lasers that couple two hyperfine ground states. Motivated by these experimental

findings, some theoretical activities have been committed to the physics of SO-coupled

BECs under di↵erent conditions. In this thesis, we explore the nonlinear dynamics

induced by the modulational instability (MI) in dissipative and non-dissipative SO coupled BECs in free space. The first chapter gives the general introduction of BEC

and reviews of the basics and essential concepts used throughout the thesis: the Gross Pitaevskii (GP) equation, SO coupling, solitons and MI process.

In the second chapter, our investigations start with the derivation of a new vector

form of the cubic complex Ginzburg-Landau (CGL) equation describing the dynam ics of dissipative solitons in the two-component helicoidal SO coupled open BECs.

Employing standard linear stability analysis, we analyze theoretically the stability of

continuous-wave solutions and obtain an expression for MI gain spectrum. Using di rect simulations of the Fourier space, we numerically investigate the dynamics of the

MI in the presence of helicoidal SO coupling. The validity of the analytical solutions

obtained is confirmed by the numerical simulations.

In the third chapter, we report the dynamics of the MI process, exclusively studied

in a two-component BEC with Rashba-Dresselhaus (RD) SO and helicoidal SO cou plings. A generalized set of two-dimensional GP equations are derived. The tunability

of the helicoidal gauge potential is exploited to separately address BECs dynamics

in free space and a square lattice. The MI growth rate is derived for each case, and

parametric analyses of MI show dependence of the instability to interatomic interac tion strengths, the RD SO coupling, and helicoidal SO coupling, which combines the

gauge amplitude and the helicoidal gauge potential. Direct numerical simulations are

performed to confirm the analytical predictions. Trains of solitons are obtained, and

their behaviors are debated when the RD SO parameters are varied under di↵erent

combinations between the gauge amplitude and the helicoidal gauge potential. The

latter gives a potential way to manipulate the trapping capacities of the proposed BEC

models.

In conclusion, the results and discussions are presented. The scope for future work

has also been suggested in detail.

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APA

Otlaadisa, P (2024). Generation of dissipative and non-dissipative matter-wave soliton trains in spin-orbit coupled bose-einstein condensates. Afribary. Retrieved from https://tracking.afribary.com/works/generation-of-dissipative-and-non-dissipative-matter-wave-soliton-trains-in-spin-orbit-coupled-bose-einstein-condensates

MLA 8th

Otlaadisa, Phelo "Generation of dissipative and non-dissipative matter-wave soliton trains in spin-orbit coupled bose-einstein condensates" Afribary. Afribary, 12 Apr. 2024, https://tracking.afribary.com/works/generation-of-dissipative-and-non-dissipative-matter-wave-soliton-trains-in-spin-orbit-coupled-bose-einstein-condensates. Accessed 09 Nov. 2024.

MLA7

Otlaadisa, Phelo . "Generation of dissipative and non-dissipative matter-wave soliton trains in spin-orbit coupled bose-einstein condensates". Afribary, Afribary, 12 Apr. 2024. Web. 09 Nov. 2024. < https://tracking.afribary.com/works/generation-of-dissipative-and-non-dissipative-matter-wave-soliton-trains-in-spin-orbit-coupled-bose-einstein-condensates >.

Chicago

Otlaadisa, Phelo . "Generation of dissipative and non-dissipative matter-wave soliton trains in spin-orbit coupled bose-einstein condensates" Afribary (2024). Accessed November 09, 2024. https://tracking.afribary.com/works/generation-of-dissipative-and-non-dissipative-matter-wave-soliton-trains-in-spin-orbit-coupled-bose-einstein-condensates

Document Details
Phelo, Otlaadisa Field: Physics Type: Paper 126 PAGES (57062 WORDS) (pdf)