Hrozhyk Uladzimir A, Serak Svetlana V, Tabiryan Nelson V, White Timothy J, Bunning Timothy J
Beam Engineering for Advanced Measurements Co., 809 South Orlando Avenue, Suite I, Winter Park, FL, USA.
Opt Express. 2010 Apr 26;18(9):9651-7. doi: 10.1364/OE.18.009651.
Reversible, fast, all-optical switching of the reflection of a cholesteric liquid crystal (CLC) is demonstrated in a formulation doped with push-pull azobenzene dyes. The reflection of the photosensitive CLC compositions is optically switched by exposure to 488 and 532 nm CW lasers as well as ns pulsed 532 nm irradiation. Laser-directed optical switching of the reflection of the CLC compositions occurs rapidly, within a few hundred milliseconds for the CW laser lines examined here. Also observed is optical switching on the order of tens of nanoseconds when the CLC is exposed to a single nanosecond pulse with 0.2 J/cm(2) energy density. The rapid cis-trans isomerization typical of push-pull azobenzene dye is used for the first time to rapidly restore the reflection of the CLC from a photoinduced isotropic state within seconds after cessation of light exposure.
在掺杂有推拉偶氮苯染料的配方中,实现了胆甾相液晶(CLC)反射的可逆、快速、全光切换。通过暴露于488和532 nm连续波激光器以及纳秒脉冲532 nm辐照,对光敏CLC组合物的反射进行光切换。对于此处研究的连续波激光线,CLC组合物反射的激光定向光切换在几百毫秒内迅速发生。当CLC暴露于能量密度为0.2 J/cm²的单个纳秒脉冲时,还观察到了几十纳秒量级的光切换。首次利用推拉偶氮苯染料典型的快速顺反异构化,在光照停止后的几秒钟内,将CLC的反射从光致各向同性状态迅速恢复。