Glasses, aging, epidemiological models

### Staff

##### KCL – Geography

Self-organisation, non-linear dynamics, sediment transport processes & turbulence

##### KCL – Physics

Nucleation & formation processes of nanosystems out of equilibrium

##### KCL – Pharmaceutical Sciences

Drug delivery systems, including self-assembly & drug permeability

##### KCL – Physics

Strongly correlated systems out-of-equilibrium, dynamics of ultra-cold atomic gasses, transport close to quantum critical points, quantum quenches

##### KCL – Physics

Transport in mesostructures, non-linear current voltage characteristics

##### KCL – Physics

Development of new computational methods for quantum simulations of correlated electron problems, including molecular, extended and model systems

##### KCL – Mathematics

Structural Glasses, Spin Glasses, Slow Dynamics, Aging, Equilibrium and out-of-equilibrium universal behaviours

##### KCL – Geography

Response of ecosystem structure & function to changes in environmental conditions

##### KCL – Cancer Studies

Experimental andÂ in silicoÂ approaches to study genomic instability during onset and progression of human cancer

##### KCL – Mathematics

Statistical mechanics, biological systems, protein interaction networks

##### KCL – Randall Division of Cell and Molecular Biophysics

Regulation of cell growth & proliferation

##### KCL – Physics

Fracture propagation, self-assembly of molecules at interfaces

##### KCL – Mathematics

Monte Carlo methods; Random walks in integer lattices;Â Limit theorems for stationary processes and Markov chains;Â Numerical methods for SDEs

##### KCL – Mathematics

Conformal & integrable field theory in and out of equilibrium, spin chains, entanglement

##### KCL – Randall Division of Cell and Molecular Biophysics

Protein folding, protein aggregation, protein-protein interaction networks

##### KCL – Mathematics

Statistical theory, methodology and applications of the design and analysis of experiments

##### KCL – Physics

Non-equilibrium Greenâ€™s functions, growth processes, non-equilibrium thermodynamics

##### KCL – Mathematics

Glasses, non-equilibrium effects in systemic operational risk

##### KCL – Physics

Ion transport, nanotribology, self-assembly of soft materials, drug permeation across membranes

##### KCL – Geography

Agent-based modelling of geographical systems, ecological succession-disturbance dynamics

##### KCL – Physics

Non-equilibrium photoactive systems, MD simulation methods for accelerating rare events, structural phase transformations

##### KCL – Physics

Non-equilibrium processes in physical metallurgy: fracture, plasticity, diffusion & phase transformations

##### KCL – Informatics

Agent-based modelling to understand real-world complex-adaptive systems, like the financial markets

##### KCL – Mathematics

Estimation of financial times modelsÂ in discrete and continuous time;Â Multivariate copula models;Â The efficient implementation Markov chain Monte Carlo;Â Sequential Monte Carlo methods

##### KCL – Chemistry

Application of computational and experimental methods to study the structure and function of protein assemblies

##### KCL – Geography

Spatial Analysis & Modelling,Â GIScience & Geo-visualisation,Â Urban & Regional Analysis,Â Big and open data & Neo-geography

##### KCL – Mathematics

Glasses, rheology, driven steady states, effective temperatures

##### KCL – Informatics

Metabolic & protein interaction networks, evolution & dynamics of genome properties

##### KCL – Physics

Non-equilibrium magnetism and dynamical response functions, photovoltaics

##### KCL – Mathematics

Nucleation & formation processes of nanosystems out of equilibriumRandom Matrix Theory and applications to complex systems and condensed matter.Â Applications of Statistical Mechanics to socio-economic and interdisciplinary applications

##### KCL – Mathematics

Conformable & integrable field theory, defects & boundaries, numerical methods

##### KCL – Physics

Strongly correlated electrons out-of-equilibrium, quantum quenches & far-from equilibrium steady-state in Hubbard model, dynamics of strongly correlated molecules & novel forms of spectroscopy, dynamics & hydrodynamics of DN

##### KCL – Geography

Role ofÂ biomass burning in exchanges of material between the land surface and the atmosphere, and development of remote sensing approaches

##### KCL – Physics

Nanophotonics, correlation between structure and optical properties of materials

### Students

#### Michele Agamennone

##### Informatics

#### Debalina Banerjee

##### TBC

#### Fergus Barratt

##### Mathematics

#### Samuel Begg

##### Physics

#### Sirio Belga Fedeli

##### Mathematics

#### Davide Bianchi

##### TBC

#### Gioia Boschi

##### Mathematics

#### Stefano De Nicola

##### Physics

#### Joseph Durnin

##### TBC

#### Davide Facoetti

##### Mathematics

#### Fahim Faizi

##### Mathematics

#### Nicholas Fisk

##### TBC

#### Aldo Glielmo

##### Physics

#### Duncan Gowland

##### Physics

#### Ryan Hannam

##### Mathematics

#### Christian Hurry

##### TBC

#### Francois Jamet

##### Physics

#### Kirsten Jenkins

##### Randall Division of Cell and Molecular Biophysics

#### Adam Kells

##### Chemistry

#### Jonny Khedair

##### Mathematics

#### Andrew Lane

##### Geography

#### Matthew Lane

##### TBC

#### Carla Lupo

##### Physics

#### Constance MacDonald

##### TBC

#### Riccardo Giuseppe Margiotta

##### Mathematics

#### Irene Marzuoli

##### Randall Division of Cell and Molecular Biophysics

#### Daniel Matos

##### TBC

#### Gerard McCaul

##### Physics

#### Jason Myers

##### Mathematics

#### Hannah Nguyen

##### Geography

#### Joel Nulsen

##### Cancer Studies

#### Christopher Orthodoxou

##### Physics

#### Mohammed Osman

##### TBC

#### Shubham Pandey

##### Mathematics

#### Evan Sheridan

##### Physics

#### Vito Susca

##### Mathematics

#### Gregory Szep

##### TBC

#### Giuseppe Torrisi

##### TBC

#### Uldis Zandovskis

##### TBC

#### Claudio Zeni

##### Physics

#### Robert Ziolek

##### Physics