Available student project - Localised formations in open systems

Research fields

  • Photonics, Lasers and Nonlinear Optics
  • Theoretical Physics

Project details

Dissipative solitons can be considered as localized objects in open systems that appear as the result of a balance between energy supply and dissipation. In order to have stationary localized solutions, this balance has to be exact  to prevent either an indefinite growth or the complete disappearance of the soliton. Dissipative solitons in these systems also require a  balance between the matter supply and loss . These objects are 'alive': they oscillate when there isn't enough energy or matter, as if the object were breathing. When matter and energy stops flowing through the system, it 'dies'. If these processes happen in simple formations like solitons, we can imagine how the very basic forms of life were 'born' in nature from non-living elements. Thus, the soliton model can help us to understand basic biological functions. This concept is also well-accepted in optics and generally in physics. It allows us to explain complicated dynamics in simple terms. Students have the chance to make their own contribution to this modern science.

Required background

Interest in general science and knowledge of mathematics

Project suitability

This research project can be tailored to suit students of the following type(s)
  • Honours project
  • Phd or Masters

Contact supervisor

Akhmediev, Nail profile
Professor
50191

Other supervisor(s)

Ankiewicz, Adrian profile
Fellow
55547
Devine, Natasha profile
Campus visitor
59984
Chang, Wonkeun profile
Visiting Fellow
59065

Updated:  17 August 2017/ Responsible Officer:  Head of Department/ Page Contact:  Physics Webmaster