|![[Search]](http://talks.cam.ac.uk/images/search.gif?1209136071)
|![[A-Z Index]](http://talks.cam.ac.uk/images/az.gif?1209136071)
|![[Contact]](http://talks.cam.ac.uk/images/contact.gif?1209136071)
||![[University of Cambridge]](http://talks.cam.ac.uk/images/identifier2.gif?1209136071){kind=small} |
COOKIES: By using this website you agree that we can place Google Analytics Cookies on your device for performance monitoring. | ![[Talks.cam]](http://talks.cam.ac.uk/images/talkslogosmall.gif?1209136071) |
University of Cambridge > Talks.cam > Isaac Newton Institute Seminar Series > Self-reinforcement, superdiffusion and subdiffusion
Self-reinforcement, superdiffusion and subdiffusionAdd to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact nobody. FDE2 - Fractional differential equations I will introduce a persistent random walk model with finite velocity and self-reinforcing directionality, which explains how exponentially distributed runs can lead to superdiffusion observed in active intracellular transport. We derive the governing hyperbolic partial differential equation for the probability density function (PDF) of particle positions. This PDF exhibits a bimodal density (aggregation phenomena) in the superdiffusive regime. I also present the exact solutions for the first and second moments and the criteria for the transition to superdiffusion. Furthermore, this model is extended to incorporate rests which can lead to both superdiffusive or subdiffusive motion. This talk is part of the Isaac Newton Institute Seminar Series series. This talk is included in these lists:
Note that ex-directory lists are not shown. |
Other listsDominic Sandbrook: 'State of Emergency: Britain in the 1970s' LfL Lunchtime Seminar - Case Study and Strengths Approaches Research bdj50: Conference on the past, present and future of Josephson PhysicsOther talksEnd Exploring variation in neural crest development among East African cichlid fishes Leukocyte dynamics in lung metastasis Adapting the Fokas transform method to solve certain fractional PDEs 4D reconstruction of developmental trajectories Cambridge - Nova Workshop - Day 1 |
Wednesday 01 June 2022, 11:00-12:00