Department of Mathematical Sciences Faculty Presentations

Minimal Mass-Energy Dynamics for Rotating BEC

Shijun Zheng, Georgia Southern UniversityFollow

Document Type

Presentation

Presentation Date

1-7-2017

Abstract or Description

I will review some recent progress concerning long time behaviors (existence, blowup and excited states) for the GrossPitaevskii equation with rotation. The GPE belongs in the type of magnetic nonlinear Schrödinger systems (mNLS) with a Lorentz gauge, which arises in modeling dilute, trapped boson gases with integer-spin in ultra-cold temperature.

Such system may exhibit interesting symmetries as well as stationary wave phenomenon, accompanied by spinor and quantized vortex, a remarkable signature for the superfluidity of Bose-Einstein condensation (BEC). I will discuss certain sharp criterion in terms of the mass and energy for the ground state in two and three dimensions.

Sponsorship/Conference/Institution

Joint Mathematics Meetings (JMM)

Location

Atlanta, GA

Recommended Citation

Zheng, Shijun. 2017. "Minimal Mass-Energy Dynamics for Rotating BEC." Department of Mathematical Sciences Faculty Presentations. Presentation 428.
https://digitalcommons.georgiasouthern.edu/math-sci-facpres/428

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Department of Mathematical Sciences Faculty Presentations

Minimal Mass-Energy Dynamics for Rotating BEC

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Department of Mathematical Sciences Faculty Presentations

Minimal Mass-Energy Dynamics for Rotating BEC

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