Director/barycentric rotation in cholesteric droplets under temperature gradient

Yoshioka, Jun; Ito, Fumiya; Suzuki, Yuto; Takahashi, Hiroaki; Takizawa, Hajime; Tabe, Yuka

doi:10.1039/c4sm00670d

Cited by 61 publications

(75 citation statements)

References 30 publications

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“…In this case, the bands disappear and the droplet presents a texture made of concentric circles between crossed polarizers (CC droplets in the following). Droplets of this type spontaneously form in the mixtures studied by Yoshioka et al [11]. Nonetheless, we noted that they easily transform in our samples into banded droplets when their size decreases, which indicates that the helical axis easily tilts from vertical to horizontal position.…”

Section: Introductionmentioning

confidence: 67%

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Lehmann rotation of cholesteric droplets: Role of the sample thickness and of the concentration of chiral molecules

Oswald

Poy

2015

Phys. Rev. E

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We study the role of the sample thickness d and of the concentration C of chiral molecules during the Lehmann rotation of cholesteric droplets of radius R subjected to a temperature gradient G→. Two configurations are studied depending on how the helix is oriented with respect to G→. The first result is that, at fixed C and R, the rotation velocity ω increases with d when the helix is parallel to G→, whereas it is independent of d when the helix is perpendicular to G→. The second result is that, for a given C,ω0=limR→0ω(R) is the same for the two types of droplets independently of d. This suggests that the, as yet unknown, physical mechanism responsible for the droplet rotation is the same in the two types of droplets. The third result is that the Lehmann coefficient ν[over ¯] defined from the Leslie-like relation ω0= G¯G/γ1 (with γ_1 the rotational viscosity) is proportional to the equilibrium twist q. Last, but not least, the ratio R¯=ν ¯/q depends on the liquid crystal chosen but is independent of the chiral molecule used to dope the liquid crystal.

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Section: Introductionmentioning

confidence: 67%

“…[8]) to the Leslie thermomechanical coupling of microscopic origin. These conclusions were recently confirmed by the crucial observation that each droplet with a banded texture seems to rotate as a rigid body in contradiction with the Leslie explanation [11]. Other types of droplet exist.…”

Section: Introductionmentioning

confidence: 72%

Lehmann rotation of cholesteric droplets: Role of the sample thickness and of the concentration of chiral molecules

Oswald

Poy

2015

Phys. Rev. E

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“…Perhaps the best known among these intriguing non-equilibrium thermodynamic phenomena is the thermomechanical coupling, known as Lehmann effect, described in 1900 by Lehmann [14], who reported the continuous rotation of the internal texture of CLC droplets in equilibrium with the isotropic phase, when they were subjected to a temperature gradient. In spite of the apparent simplicity of these observations, they remained experimentally elusive until recently [15][16][17][18].…”

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confidence: 99%

Continuous Rotation of Achiral Nematic Liquid Crystal Droplets Driven by Heat Flux

2016

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Suspended droplets of cholesteric (chiral nematic) liquid crystals spontaneously rotate in the presence of a heat flux due to a temperature gradient, a phenomenon known as Lehmann effect. So far, it is not clear whether this effect is due to the chirality of the phase and the molecules or only to the chirality of the director field. Here, we report the continuous rotation in a temperature gradient of nematic droplets of a lyotropic chromonic liquid crystal featuring a twisted bipolar configuration. The achiral nature of the molecular components leads to a random handedness of the spontaneous twist, resulting in the coexistence of droplets rotating in the two senses, with speeds proportional to the temperature gradient and inversely proportional to the droplet radius. This result shows that a macroscopic twist of the director field is sufficient to induce a rotation of the droplets, and that the phase and the molecules do not need to be chiral. This suggests that one can also explain the Lehmann rotation in cholesteric liquid crystals without introducing the Leslie thermomechanical coupling -only present in chiral mesophases. An explanation based on the Akopyan and Zeldovich theory of thermomechanical effects in nematics is proposed and discussed.

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“…2 капли ХЖК применяли в качестве резонаторов для создания микролазеров [14,15], фото-механических [16] и термо-механических устройств [17]. Оптические и диэлектрические свойства ХЖК материалов, а также их отклик на внешние воздействия зависят от того, какая конфигурация директора n реализуется внутри капель [18], которая, в свою очередь, определяется граничными условиями (ориентацией директора на границе капли), материальными параметрами ХЖК, а также соотношением шага спирали ХЖК p 0 и размера капли d. Так, например, при тангенциальных граничных условиях в каплях ХЖК формируется закрученная биполярная конфигурация при d/p 0 < 1.5, структура с радиальным дефектом при d/p 0 > 3 и переходная при промежуточном соотношении [19].…”

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“…Так, в [10] было показано, что шаг спирали в структуре с радиальным дефектом близок к собственному шагу спирали p 0 . В каплях ХЖК со слабым сцеплением, например в каплях холестерика, окруженных своей изотропной фазой, закрученная структура оказывается недеформированной с шагом спирали p 0 [17]. По аналогии с плоским слоем [24,25] можно предполагать, что в каплях с сильным гомеотропным сцеплением межфазная граница окажет существенное влияние на шаг спирали.…”

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Untwisting of the helical structure of cholesteric droplets with homeotropic surface anchoring

et al. 2017

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Director/barycentric rotation in cholesteric droplets under temperature gradient

Cited by 61 publications

References 30 publications

Lehmann rotation of cholesteric droplets: Role of the sample thickness and of the concentration of chiral molecules

Lehmann rotation of cholesteric droplets: Role of the sample thickness and of the concentration of chiral molecules

Continuous Rotation of Achiral Nematic Liquid Crystal Droplets Driven by Heat Flux

Untwisting of the helical structure of cholesteric droplets with homeotropic surface anchoring

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