Phase Transitions and Characterization of Inorganic and Organic Systems

The crystal growth investigations will include: influence of different parameters on the physical properties of the crystals and crystal growth rate dispersion; time evolution of growth rate, independent of growth conditions; influence of impurities and growth conditions on crystal macromorphology and crystal faces micromorphology. Investigation of physical characteristics of liquid crystal compounds: banana-shaped, rod-like, ferroelectric, cholesteric and polymeric liquid crystals, applicable for liquid crystal displays. Spectral investigation of high-toxic substances which have application in print industry (fountain solutions, waste paint). Theoretical studies will include: stiffness dependant properties of polymer chains on Euclidean and fractal lattices; force-induced polymer desorption and unfolding; ordered and disordered phases of compact polymers. On finite-size thermodynamic systems, Ising universality class will be studied for various boundary conditions. Various time series acquired experimentally (by recording: neuronal activity in animals, hand tremor movements, changes of blood pressure and heart rate signals, traffic and Internet flow) will be analyzed, as well as: percolation phase transitions observed on neuron systems with different topology; synchronization and dynamics of neuron motifs and networks coupled via chemical synapses with delay; conductivity and clustering properties of composite systems; and some statistical models of financial markets.