高质量三维光子晶体的实验制备及理论分析
고질량삼유광자정체적실험제비급이론분석
Experiment Fabrication and Theory Analysis of Three-dimension High Quality Photonic Crystals
  • 万方数据
    光子学报 광자학보
    ACTA PHOTONICA SINICA
    2009年 7期 1707-1712 ,共6页

    刘桂强%廖昱博%陈艳%刘忠民

    류계강%료욱박%진염%류충민

    光子晶体%自组装%透射率%光子禁带%带隙边沿坡度 光子晶體%自組裝%透射率%光子禁帶%帶隙邊沿坡度
    광자정체%자조장%투사솔%광자금대%대극변연파도
    Photonic crystals%Self-assembly%Transmission%Photonic band gap%Photonic band edge slope
    对压强控制自组装法进行了改进,采用了密封硅胶颗粒的强吸水装置,为光子晶体样品的制备提供了一个稳定的温度、湿度和压强环境.将温度、压强分别控制在35 ℃、45 mmHg,利用直径为260 nm的聚苯乙烯胶体球进行了高质量三维光子晶体样品的制备.从理论计算和实验测量等方面对制备的光子晶体样品的结构、质量和性能进行了对比分析,结果表明,利用该实验装置进行光子晶体样品的制备时,可重复性高;制备的光子晶体样品具有较为完美有序的密堆结构,质量较好;在光子晶体样品的Г-L方向有深且窄的光子带隙和陡峭的带隙边沿.光子带隙深度为83%,宽度为0.073,带隙边沿陡峭度为8%/nm,这为超快全光开关等先进的光学设备的研究奠定了基础.
    대압강공제자조장법진행료개진,채용료밀봉규효과립적강흡수장치,위광자정체양품적제비제공료일개은정적온도、습도화압강배경.장온도、압강분별공제재35 ℃、45 mmHg,이용직경위260 nm적취분을희효체구진행료고질량삼유광자정체양품적제비.종이론계산화실험측량등방면대제비적광자정체양품적결구、질량화성능진행료대비분석,결과표명,이용해실험장치진행광자정체양품적제비시,가중복성고;제비적광자정체양품구유교위완미유서적밀퇴결구,질량교호;재광자정체양품적Г-L방향유심차착적광자대극화두초적대극변연.광자대극심도위83%,관도위0.073,대극변연두초도위8%/nm,저위초쾌전광개관등선진적광학설비적연구전정료기출.
    The pressure controlled self-assembly method provided recently was improved and a sealed suction setup filled with silica gel spheres was used to retain a stable temperature,humidity and pressure condition for fabricating high-quality three dimension photonic crystals(PCs).PCs were fabricated by polystyrene (PS) colloid spheres with diameter 260 nm at 35℃ and 45 mmHg.The structures,qualities and properties of PCs fabricated were analyzed theoretically and experimentally.The results show that this system can be uesd repeatedly to fabricate high PCs with perfect,ordered and close-packed arrays; deep and narrow photonic band gap(PBG) along Г-L direction and steep photonic band edge(PBE) slope are found.The depth and normalized width of PBG are about 83% and 0.073,respectively.The slope of PBE arrives at 8%/nm which provide a basis for studying advanced optical equipments such as ultra-fast all-optical switches.
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