Add to ORKGThe critical field of the Freedericksz transition and switching dynamics are investigated for polymer stabilized nematic liquid crystals as a function of polymer concentration. A simple phenomenological model is proposed to describe the observed critical field and dynamic response time behaviors as a function of concentration. In this model the polymer fibrils form director domains, which are bounded by virtual surfaces with a finite anchoring energy. The Freedericksz transition occurs independently within each of these domains
By use of a local stability criterion recently introduced, we predict the existence of a periodic sa...
New polymeric liquid crystals can be treated as standard nematic liquid crystals when only their bul...
New polymeric liquid crystals can be treated as standard nematic liquid crystals when only their bul...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
We have constructed polymer-stabilized nematic liquid crystals by photopolymerizing diacrylate monom...
Understanding the behavior of semi-flexible polymers when immersed in a nematic phase of a liquid cr...
By use of a local stability criterion recently introduced, we predict the existence of a periodic sa...
New polymeric liquid crystals can be treated as standard nematic liquid crystals when only their bul...
New polymeric liquid crystals can be treated as standard nematic liquid crystals when only their bul...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and switching dynamics are investigated for polyme...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
The critical field of the Freedericksz transition and optical hysteresis is investigated for Polymer...
We have constructed polymer-stabilized nematic liquid crystals by photopolymerizing diacrylate monom...
Understanding the behavior of semi-flexible polymers when immersed in a nematic phase of a liquid cr...
By use of a local stability criterion recently introduced, we predict the existence of a periodic sa...
New polymeric liquid crystals can be treated as standard nematic liquid crystals when only their bul...
New polymeric liquid crystals can be treated as standard nematic liquid crystals when only their bul...