Search for dissertations about: "Inverse Monte Carlo"
Showing result 1 - 5 of 21 swedish dissertations containing the words Inverse Monte Carlo.
-
1. Charge Transport Simulations for Organic Electronics : A Kinetic Monte Carlo Approach
Abstract : In this thesis we focus on the modelling and simulation of organic electronic devices, investigating their structural and electronic properties. Organic devices have attracted great interest for their innovative properties, but their functioning still represent a theoretical and technological challenge. READ MORE
-
2. Monte Carlo particle transport codes for ion beam therapy treatment planning : Validation, development and applications
Abstract : External radiotherapy with proton and ion beams needs accurate tools for the dosimetric characterization of treatment fields. Monte Carlo (MC) particle transport codes, such as FLUKA and GEANT4, can be a valuable method to increase accuracy of dose calculations and to support various aspects of ion beam therapy (IBT), such as treatment planning and monitoring. READ MORE
-
3. Inverse Modeling of Cloud – Aerosol Interactions
Abstract : The role of aerosols and clouds is one of the largest sources of uncertainty in understanding climate change. The primary scientific goal of this thesis is to improve the understanding of cloud-aerosol interactions by applying inverse modeling using Markov Chain Monte Carlo (MCMC) simulation. READ MORE
-
4. Multiscale simulations of soft matter: systematic structure-based coarse-graining approach
Abstract : The soft matter field considers a wide class of objects such as liquids, polymers, gels, colloids, liquid crystals and biological macromolecules, which have complex internal structure and conformational flexibility leading to phenomena and properties having multiple spacial and time scales. Existing computer simulation methods are able to cover these scales, but with different resolutions, and ability to link them together performing a multiscale simulation is highly desirable. READ MORE
-
5. Estimating Effective Interactions from Particle Trajectories
Abstract : The theoretical and practical understanding of molecular systems is strongly dependent on computer simulations. All-atom molecular dynamics techniques are capable of sim- ulating systems on the scale of millions of particles up to about 100 ns. READ MORE