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**Applied Mathematics Seminars**- Previous Applied Seminars
- Applied Mathematics Seminars Autumn 2014
- Applied Mathematics Seminars Summer 2014
- Applied Mathematics Seminars Spring 2014
- Applied Mathematics Seminars Autumn 2013
- Applied Mathematics Seminars Spring 2013
- Applied Mathematics Seminars Autumn 2012
- Applied Mathematics Seminars Summer 2012
- Applied Mathematics Seminars Spring 2012
- Applied Mathematics Seminars Autumn 2011
- Applied Mathematics Seminars Spring 2011
- Applied Mathematics Seminars Autumn 2010
- Applied Mathematics Seminars Spring 2010
- Applied Mathematics Seminars Autumn 2009
- Applied Mathematics Seminars Spring 2009
- Applied Mathematics Seminars Autumn 2008
- Applied Mathematics Seminars Spring 2008
- Applied Mathematics Seminars Autumn 2007

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### Research Excellence Framework (REF) 2014 results

### London School of Geometry and Number Theory (LSGNT)

*EPSRC award offers new PhD opportunities in pure mathematics*

### UCL Mathematics and Statistical Science 5th in league table for UK mathematics departments

### Helen Wilson and Mark Ronan comment on the Fields Medal 2014

## Applied Mathematics Seminars

### Spring 2015

All seminars (unless otherwise stated) will take place on **Tuesdays at
3.00pm in ****Room 505 in the Mathematics Department **(25 Gordon Street). See see how to find us for further details. There will be tea afterwards in Maths Room 606. If
you require any more information on the Applied seminars please
contact Prof Slava Kurylev e-mail: y.kurylev AT ucl.ac.uk or
tel:
020-7679-7896.

### 13 January 2015

Prof Beth Wingate - University of Exeter

###### Title: The influence of fast waves and fluctuations on the evolution of slow solutions of the Boussinesq equations

Abstract:

I will present results from studies of the impact of the non-slow
(typically fast) components of a rotating, stratified flow on its slow dynamics. My collaborators and I work in the framework of fast singular limits that derives from the work of
Bogoliubov and Mitropolsky [1961], Klainerman and Majda [1981], Shochet [1994],
Embid and Majda [1996] and others. To understand how the flow approaches and
interacts with the slow dynamics we decompose the full solution into its slow
component and everything else. We use this decomposition to find evolution
equations for the components of the flow (and the corresponding energy) into and out
of the 'slow manifold'. Numerical simulations indicate that for the geometry
considered (triply periodic) and the type of forcing applied, the fast dynamics act
as a conduit, moving energy onto the slow component.

I will also discuss generalizations of the method of
cancellations of oscillations of Schochet for two distinct fast time scales, i.e. which fast
time scale is fastest? I will give an example for the quasi-geostrophic limit of the
Boussinesq equations.

The talk includes joint work with Jared Whitehead (Brigham Young University) and Terry Haut (Los Alamos National Laboratory).

### 20 January 2015

Prof Alexey Chernov - University of Reading

###### Title: Quasi-optimal stability estimates for the hp-Raviart-Thomas projection operator on the cube

Abstract:

Stability
of the hp-Raviart-Thomas projection operator as a mapping H^1(K) -> H^1(K)
on the unit cube K in R^3 has been addressed e.g. in [2], see also [1]. These
results are suboptimal w.r.t. the polynomial degree. In this talk we present
quasi-optimal stability estimates for the hp-Raviart-Thomas projection operator
on the cube. The analysis involves elements of the polynomial approximation
theory on an interval and the real method of Banach space interpolation.

(Joint work with Herbert Egger, TU Darmstadt)

[1] Mark Ainsworth and Katia Pinchedez. hp-approximation theory for BDFM and RT
finite elements on quadrilaterals. SIAM J. Numer. Anal., 40(6):2047–2068
(electronic) (2003), 2002.

[2] Dominik Schötzau, Christoph Schwab, and Andrea Toselli. Mixed hp-DGFEM for
incompressible flows. SIAM J. Numer. Anal., 40(6):2171–2194 (electronic)
(2003), 2002.

### 27 January 2015

Prof Alexander Stegner - Ecole Polytechnique, France

###### Title: Cyclone-anticyclone asymmetries of island wake flows

Abstract:

A large number of recent studies show that even
if the upstream forcing is symmetrical (uniform flow and circular island) the wake flow may exhibit a
strong cyclone-anticyclone asymmetry due to the combined effects of
rotation and stratification. At mesoscale, laboratory experiments and
numerical simulations reveal the preferred formation of anticyclonic
vortices within a shallow-water wake if the island diameter is larger than
the first baroclinic radius.
Once they are formed, these large-scale anticyclones tend to be more
stable and robust to external strain perturbations than their cyclonic
counterparts. At submesoscale, large scale experiments
performed on the Coriolis plateform and 3D numerical simulations have shown that an island wake flow may exhibit a transient and
three-dimensional instability in the region of intense anticyclonic
vorticity. This instability is a branch of the inertial-centrifugal
instability in the framework of rotating,stratified shallow-water flows.
In such case, we could expect a predominance of intense cyclone in the
island wake.

These various dynamical regimes are mainly controlled by three dimensionless numbers, namely the island Rossby number RoI , the Burger number Bu and the Ekman number Ek. A global diagram, which estimates the various regions of cyclonic or anticyclonic predominance is proposed in the (RoI ; Bu) parameter space.

### 3 February 2015

Dr Olga Trichtchenko - UCL

###### Title: Stability of Periodic Gravity-Capillary Water Waves

Abstract:

I will present results on the computation and
stability of periodic surface gravity-capillary waves. First, I
will show how we solve Euler's equations to compute these waves. Then
I will present the results of the stability analysis for these
solutions by making use of Hill's method. Depending on the coefficient of
surface tension, we see resonant effects called Wilton's ripples. These
resonant solutions for gravity-capillary waves are found to have
interesting instabilities. Since this stability analysis is general to all
Hamiltonian systems, we can also use it to compare and contrast the
results for different models for water waves.

### 10 February 2015

TBA

###### Title: TBA

Abstract:

TBA

### 17 February 2015 - NO SEMINAR (READING WEEK)

### 24 February 2015

TBA

###### Title: TBA

Abstract:

TBA

### 3 March 2015

TBA

###### Title: TBA

Abstract:

TBA

### 10 March 2015 - COLLOQUIUM TALK

Prof Sylvia Serfaty - Université Pierre et Marie Curie

###### - please see the Departmental Colloquia webpage

### 17 March 2015

TBA

###### Title: TBA

Abstract:

TBA

### 24 March 2015

TBA

###### Title: TBA

Abstract:

TBA

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