Symmetry effects of electric and magnetic fields in liquid state molecular dynamics

D~cout~lin;: effects in liquid-state molecular dynamics are unambiguously proven by computer simulationr These can be describ~ul ;is tbc we&c=ninS of the dissipnrivc interaction between the system of interest (e.g. molecular angular veloci-IF) rrnd its 11wr1nrrI barb caused by an intense external fi

## Abstract ZnO nanorod polymer hybrids (i.e., ZnO nanorods coated with a block copolymer with a short anchor block (dopamine) and a longer solubilizing block of polystyrene (PS)) form liquid crystalline (LC) phases if they are dispersed at high concentration e.g., in a PS oligomer matrix. Due to t

We demonstrate in a spectroscopic experiment the hybridization of rotor states within the X and A electronic states of ICl, induced by parallel magnetic and electric fields of up to 0.7 T and 50 kV/cm. For a polar paramagnetic electronic state, such as the A state, the electric and magnetic fields c

Abstraet--A thermotropically mesogenic aromatic polyester and its low molecular weight analogue ("monomer") in the nematic phase in thin layers form homeotropic textures which can be deformed under the influence of magnetic or electric fields. The elastic orientational deformations generated are of