1. Biooptovolokonnaya system comprising at least one liquid placed in a biological environment samoorganizuschuyusya micro tube or a micro tube in this medium, which is a hollow-core fiber with core and cladding Bioorganic and configured to input portion / emission output, the input of the laser source in the range 400- 800 nm is a fiber through the input / output device, adjacent to a portion of the input / output radiation, characterized in that the used peptide nanotube micropipe based difenilalanina, wherein the radiation input / output portion is in the form molten end of the tube, and I / O device is arranged directly at the ends of the tube in a molten focused laser beam all peptide nanotube, forming a prism for input / output of emission from the laser source izlucheniya.2. input / output emission in biooptovolokno representing a peptide nanotube based difenilalanina, characterized in that it is made in the form of prisms on peptide nanotubes ends obtained by local melting of the focused laser beam the ends of the nanotubes and forming the inclined surface at the ends of all the nanotube performing the function of the inclined faces prizmy.3. Biooptovolokno for biooptovolokonnoy system constitutes placed in liquid biological medium or samoorganizuschuyusya in this environment peptide nanotube based difenilalanina.;1。生物光致发光系统,包括放置在生物环境中的至少一种液体,samoo.izuschuyusya微管或该介质中的微管,该微管是具有芯和包层的生物有机中空芯光纤,被配置为输入激光源的输入部分/发射输出。E在400~800 nm范围内是通过输入/输出装置的光纤,毗邻输入/输出辐射的一部分,其特征在于所用的肽纳米管基二苯尼拉尼娜,其中辐射输入/输出部分为管的熔融端,I/O装置直接设置在管的熔融焦点的末端。D激光束全肽纳米管形成用于激光源IZLUCHYNIYA发射的输入/输出的棱镜。2。生物光化学中的输入/输出发射,表示基于肽纳米管的difenilalanina,其特征在于它是以棱镜的形式在肽纳米管端部制成的,所述肽纳米管端部通过聚焦激光束在纳米管的端部局部熔化并在端部形成倾斜表面而获得。在所有的纳米管中执行倾斜表面撬的功能。3。用于生物光致癌系统的生物光致癌物构成置于液体生物培养基中或在此环境中以肽纳米管为基的敌尼拉奈。
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