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    • 2. 发明申请
    • CONFOCAL INCIDENT-LIGHT SCANNING MICROSCOPE
    • 共焦事件光扫描显微镜
    • US20140133011A1
    • 2014-05-15
    • US14130966
    • 2012-07-05
    • Daniel SchwedtRalf Wolleschensky
    • Daniel SchwedtRalf Wolleschensky
    • G02B21/00G02F1/29G02F1/35
    • G02B21/0076G02B21/0032G02F1/29G02F1/353
    • A microscope which makes possible a spectrally-flexible excitation and detection of fluorescence in an economical manner. For this purpose, means for frequency conversion are arranged in the common beam path and a filter for excitation light is arranged in addition to the main beam splitter in the detection beam path. The frequency conversion achieves a spectral delimitation between illumination light, which is emitted by the light source, and excitation light which brings about fluorescence excitation in the specimen. Because the frequency conversion takes place in the common beam path after the main beam splitter, it is possible for both a spatial separation of illumination light, and excitation light and fluorescent light (detection light) emitted by the specimen, to be carried out in an economical manner at the main beamsplitter according to spectral bands because of the spectral difference between illumination light and excitation light.
    • 一种显微镜,可以以经济的方式进行光谱灵活的荧光激发和检测。 为此,在公共光束路径中布置用于频率转换的装置,并且除了检测光束路径中的主分束器之外还布置有用于激发光的滤光器。 频率转换实现了由光源发射的照明光与在样本中产生荧光激发的激发光之间的光谱定界。 由于在主分束器之后的共同光束路径中发生频率转换,所以可以在照射光和激发光的空间分离以及由样本发射的荧光(检测光)两者中进行 由于照明光和激发光之间的光谱差异,根据光谱带在主分束器处经济。
    • 4. 发明申请
    • Microscope Having an Adjustment Device for the Focus Range
    • 具有调焦装置的显微镜用于对焦范围
    • US20110176206A1
    • 2011-07-21
    • US13121886
    • 2009-09-22
    • Ralf WolleschenskyMichael Kempe
    • Ralf WolleschenskyMichael Kempe
    • G02B21/00
    • G02B21/006G02B21/0068G02B21/241G02B2207/114
    • A microscope with means for adjusting the focal range, comprising a first objective lens for transmitting the object light of an illuminated object in the direction of a detector, with a second objective lens being disposed in the direction of the light upstream of the detector, which second objective lens is followed by a first mirror that can be adjusted in the direction of the optical axis, with at least one second mirror for transmitting light from the first objective lens in the direction of the second objective lens and from the second objective lens to the detector being disposed in the optical path, which second mirror is a fully reflective mirror, or a microscope with means for adjusting the focal range, comprising a first objective lens for transmitting the object light of an illuminated object in the direction of a detector, with a second objective lens being disposed in the direction of light upstream of the detector, which second objective lens is followed by a first mirror that can be adjusted in the direction of the optical axis, with a polarizing beam splitter for splitting the object light into two components that are oriented perpendicular to each other being disposed between the first and the second objective lens for light transmission.
    • 一种具有用于调节焦距范围的装置的显微镜,包括用于在检测器的方向上传送被照射物体的物体的第一物镜,其中第二物镜沿检测器上游的光的方向设置, 第二物镜之后是可以在光轴方向上调节的第一反射镜,具有至少一个第二反射镜,用于在第二物镜的方向上从第一物镜透射光并从第二物镜传播光 所述检测器设置在所述光路中,所述第二反射镜是完全反射镜,或具有用于调节所述焦距的装置的显微镜,所述显微镜包括用于沿检测器的方向透射被照射物体的物体的第一物镜, 其中第二物镜沿着​​检测器上游的光的方向设置,该第二物镜后面是第一镜像 r可以在光轴的方向上调整,其中偏振分束器用于将物体光分成两个彼此垂直取向的分量,这两个分量被布置在第一和第二物镜之间用于透光。
    • 5. 发明申请
    • APPARATUS AND METHOD FOR HIGH SPATIAL RESOLUTION IMAGING OF A STRUCTURE OF A SAMPLE
    • 用于样品结构的高空间分辨率成像的装置和方法
    • US20110036996A1
    • 2011-02-17
    • US12867291
    • 2009-02-03
    • Ralf WolleschenskyHelmut LippertChristopher PowerBenno Radt
    • Ralf WolleschenskyHelmut LippertChristopher PowerBenno Radt
    • G01J1/58
    • G02B21/002G01N21/6458G02B21/10G02B27/58
    • Apparatus and method for high spatial resolution imaging of a sample's structure, including a diffraction-limited resolution volume with a plurality of dye molecules which can be switched between different states and have a distribution density which is greater than the inverse of the diffraction-limited resolution volume, where at least one state is fluorescing, the fluorescence being collected by an objective lens and imaged on a spatially resolving detector by an optical system. At least one light source provided for emitting a switching radiation and for emitting an excitation radiation. At least one of the light sources is arranged to radiate through the sample, and a switching and/or fluorescence excitation of the dye molecules is carried out. The switching is a photoactivation or a photodeactivation of the dye molecules. A focusing arrangement is provided for switching and/or for excitation to generate a line-like illumination region extending in a direction of illumination.
    • 用于样品结构的高空间分辨率成像的装置和方法,包括具有多个染料分子的衍射限制分辨率体积,其可以在不同状态之间切换并且具有大于衍射受限分辨率的反比的分布密度 体积,其中至少一个状态是荧光的,荧光由物镜收集并通过光学系统在空间分辨检测器上成像。 提供用于发射切换辐射并用于发射激发辐射的至少一个光源。 至少一个光源布置成通过样品辐射,并且进行染料分子的切换和/或荧光激发。 切换是染料分子的光活化或光激活。 提供了用于切换和/或激发的聚焦装置,以产生在照明方向上延伸的线状照明区域。