2020
DOI: 10.1364/ome.399169
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Efficient random lasing in topologically directed assemblies of blue-phase liquid crystal microspheres

Abstract: Controlling light flow in the directed-assembly of blue-phase liquid crystal (BPLC) microspheres with curvature boundaries and random domain of cubic lattices is a highly interesting photonic phenomenon. A strategy of efficient random lasing with resonant feedback based on a microemulsion comprising of BPLC, laser dye and block copolymer is presented here. BPLCs are produced with a microfluidic apparatus and confined in microspheres. These spatially-assembled dye-doped BPLC microdroplets are used as a source f… Show more

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Cited by 5 publications
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“…[44] Therefore, probing light confinement in the BPLCs and using them as novel soft lasers are of great interest. Up to now, various BP lasers have been developed based on band-edge lasing, [42,45,46] distributed feedback lasing, [44] defect lasing, [47] and random lasing [48][49][50] using film confined in LC cells [51][52][53][54] or freestanding one. [42,43] Though much progress has been made on BP lasers in terms of the tunability of lasing wavelength under external stimuli, such as light, [55,56] electricity, [45,57,58] temperature, [48,51,54,[59][60][61][62] and mechanics, [63] the research focused on the working temperature of BP lasers is insufficient.…”
Section: Introductionmentioning
confidence: 99%
“…[44] Therefore, probing light confinement in the BPLCs and using them as novel soft lasers are of great interest. Up to now, various BP lasers have been developed based on band-edge lasing, [42,45,46] distributed feedback lasing, [44] defect lasing, [47] and random lasing [48][49][50] using film confined in LC cells [51][52][53][54] or freestanding one. [42,43] Though much progress has been made on BP lasers in terms of the tunability of lasing wavelength under external stimuli, such as light, [55,56] electricity, [45,57,58] temperature, [48,51,54,[59][60][61][62] and mechanics, [63] the research focused on the working temperature of BP lasers is insufficient.…”
Section: Introductionmentioning
confidence: 99%