Imperial College London | Condensed Matter Theory

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surface growth simulation

PhD Theses available in PDF

Electromagnetic fields and forces in nanostructures (2.2MB).

Disorder and interactions in 1D systems (1.1 MB).

Tangled nature: a model of ecological evolution (6.4MB).

A stochastic approach to cloud optical depth (1.3MB).

Coulomb interactions and positron annihilation in many fermion systems: a Monte Carlo approach (1.0MB).

Correlated many-electron wavefunctions for quantum Monte Carlo calculations of strongly inhomogeneous systems (1.2MB).

Multiscale theory of fluctuating interfaces (4.2MB).

Atomic-scale homoepitaxial growth simulations of reconstructed III-V surfaces (21.5MB).

Dissipation in 2D Bose systems with long-range order (1.2MB).

Solving the many-electron problem with quantum Monte Carlo methods (1.5MB).

Artificial Magnetic Structures (710KB).

Electronic Properties of Layered Semiconductor Structures (1.6MB).

Ground-state and finite-temperature quantum Monte Carlo simulations of many-particle systems (2.0MB).

The statistics of quantum transport through disordered systems (1.5MB).

Fluctuations and scaling in 1D irreversible film growth models (3.7MB).

Transfer matrices, photonic bands and related quantities (2.0MB).

Improving the accuracy of surface simulations (1.4MB).

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