物理学家创造了一个生物激光器。
这是科学家第一次用活体生物材料制作激光器:仅用到单个人体细胞和一些水母蛋白质。
Scientists have for the first time created laser light using living biological material: a single human cell and some jellyfish protein.
自1960年激光器诞生之后,激光技术在农业、生物、医学等领域得到了广泛的应用。
Since the birth of the laser in 1960, the laser technique has been widely used in agricultural, biological, medical and other aspects.
它们因具有尺寸可调的光学性质和高的荧光量子产率而成为用于制备发光二极管、激光器和生物荧光标记物的新颖理想的光学材料。
The size-tunable optical properties and high photoluminescence quantum yields have made QDs a novel and ideal optical material for light-emitting diodes, lasers, and biological fluorescent labels.
横向塞曼激光器是基于SPR原理的生物分子相互作用相位检测的理想光源。
Transverse Zeeman laser is the ideal light source of phase detection in biomolecular interaction based on SPR principle.
方法利用激光陷阱技术,用激光器、生物显微镜、CCD传感器和计算机图像处理系统构成一套光镊来进行操纵。
Methods we constructed an optical tweezers which consists of a Laser, a microscope, a CCD camera and computer image processing system, and manipulated some cells with the tweezers.
透镜光纤可以应用在光纤和半导体激光器的耦合,光纤和波导的耦合,传感器探测方面以及医疗和生物应用等等。
The lensed fiber can be used for fiber to LD coupling, fiber to waveguide coupling, detection in sensor, medical and biological applications and so on.
透镜光纤可以应用在光纤和半导体激光器的耦合,光纤和波导的耦合,传感器探测方面以及医疗和生物应用等等。
The lensed fiber can be used for fiber to LD coupling, fiber to waveguide coupling, detection in sensor, medical and biological applications and so on.
应用推荐