Effect of high pressure on relaxation dynamics and crystallization kinetics of chiral liquid crystal in its smectic phase
Anna Drzewicz, Małgorzata Jasiurkowska-Delaporte, Ewa Juszyńska‐Gałązka, Mirosław Gałązka, Wojciech Zając, Przemysław Kula
Abstract
suggest that the crystal growth is three-dimensional. Additionally, we successfully used the scaling of dielectric response for experimental data. The scaling of the dielectric relaxation processes indicates that the dynamics and the behaviour of dielectric permittivity have the same origin for all phases regardless of the change in temperature and/or pressure.
Topics & Concepts
KineticsCrystallizationPhase (matter)Liquid crystalRelaxation (psychology)Dynamics (music)Materials scienceThermodynamicsChemical physicsHigh pressureCrystal (programming language)Physical chemistryCrystallographyChemistryOrganic chemistryPhysicsClassical mechanicsComputer sciencePsychologyAcousticsSocial psychologyOptoelectronicsProgramming languageLiquid Crystal Research AdvancementsMolecular spectroscopy and chiralityMaterial Dynamics and Properties