Ferroelectric Nematic-Isotropic Liquid Critical End Point

A critical end point above which an isotropic phase continuously evolves into a polar (ferroelectric) nematic phase with an increasing electric field is found in a ferroelectric nematic liquid crystalline material. The critical end point is approximately 30 K above the zero-field transition temperat...

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Veröffentlicht in:	Physical review letters 2023-05, Vol.130 (21), p.216802-216802, Article 216802
Hauptverfasser:	Szydlowska, Jadwiga, Majewski, Pawel, Čepič, Mojca, Vaupotič, Nataša, Rybak, Paulina, Imrie, Corrie T, Walker, Rebecca, Cruickshank, Ewan, Storey, John M D, Damian, Pociecha, Gorecka, Ewa
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container_issue	21
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container_title	Physical review letters
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creator	Szydlowska, Jadwiga Majewski, Pawel Čepič, Mojca Vaupotič, Nataša Rybak, Paulina Imrie, Corrie T Walker, Rebecca Cruickshank, Ewan Storey, John M D Damian, Pociecha Gorecka, Ewa
description	A critical end point above which an isotropic phase continuously evolves into a polar (ferroelectric) nematic phase with an increasing electric field is found in a ferroelectric nematic liquid crystalline material. The critical end point is approximately 30 K above the zero-field transition temperature from the isotropic to nematic phase and at an electric field of the order of 10 V/μm. Such systems are interesting from the application point of view because a strong birefringence can be induced in a broad temperature range in an optically isotropic phase.
doi_str_mv	10.1103/PhysRevLett.130.216802
format	Article
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The critical end point is approximately 30 K above the zero-field transition temperature from the isotropic to nematic phase and at an electric field of the order of 10 V/μm. 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title	Ferroelectric Nematic-Isotropic Liquid Critical End Point
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