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    • 1. 发明授权
    • Microscope and observation method
    • 显微镜和观察方法
    • US09001321B2
    • 2015-04-07
    • US13578164
    • 2011-02-08
    • Katsumasa FujitaShogo KawanoMasahito YamanakaSatoshi Kawata
    • Katsumasa FujitaShogo KawanoMasahito YamanakaSatoshi Kawata
    • G01J3/44G02B21/00G01N21/65
    • G02B21/002G01N2021/653G01N2021/655G02B2207/114
    • Provided is a microscope and an observation method which can improve spatial resolution. A microscope according to an aspect of the invention includes a laser light source (10), an objective lens (16) that focuses light from the laser light source on a sample, and a detector (22) that detects the laser light as signal light from a sample (17) when the sample (17) is irradiated with the laser light. The light is applied to the sample with an intensity changed to obtain a nonlinear region where intensities of the light and the signal light have a nonlinear relation due to occurrence of saturation or nonlinear increase of the signal light when the light has a maximum intensity, and the detector (22) detects the signal light according to the intensity of the laser light to perform observation based on a saturation component or a nonlinear increase component of the signal light.
    • 提供了可以提高空间分辨率的显微镜和观察方法。 根据本发明的一个方面的显微镜包括激光源(10),将来自激光光源的光聚焦在样本上的物镜(16)以及检测器(22),其将激光检测为信号光 来自样品(17)当样品(17)被激光照射时。 将光以强度变化的方式施加到样品,以获得非线性区域,其中当光具有最大强度时,光和信号光的强度由于饱和度的发生或信号光的非线性增加而具有非线性关系,以及 检测器(22)根据激光的强度检测信号光,以基于信号光的饱和分量或非线性增加分量进行观察。
    • 2. 发明申请
    • MICROSCOPE AND OBSERVATION METHOD
    • 显微镜和观察方法
    • US20120307238A1
    • 2012-12-06
    • US13578164
    • 2011-02-08
    • Katsumasa FujitaShogo KawanoMasahito YamanakaSatoshi Kawata
    • Katsumasa FujitaShogo KawanoMasahito YamanakaSatoshi Kawata
    • G02B21/14G01J3/44G01N21/59G01N21/17G01N21/47G01J3/50
    • G02B21/002G01N2021/653G01N2021/655G02B2207/114
    • Provided is a microscope and an observation method which can improve spatial resolution. A microscope according to an aspect of the invention includes a laser light source (10), an objective lens (16) that focuses light from the laser light source on a sample, and a detector (22) that detects the laser light as signal light from a sample (17) when the sample (17) is irradiated with the laser light. The light is applied to the sample with an intensity changed to obtain a nonlinear region where intensities of the light and the signal light have a nonlinear relation due to occurrence of saturation or nonlinear increase of the signal light when the light has a maximum intensity, and the detector (22) detects the signal light according to the intensity of the laser light to perform observation based on a saturation component or a nonlinear increase component of the signal light.
    • 提供了可以提高空间分辨率的显微镜和观察方法。 根据本发明的一个方面的显微镜包括激光源(10),将来自激光光源的光聚焦在样本上的物镜(16)以及检测器(22),其将激光检测为信号光 来自样品(17)当样品(17)被激光照射时。 将光以强度变化的方式施加到样品,以获得非线性区域,其中当光具有最大强度时,光和信号光的强度由于饱和度的发生或信号光的非线性增加而具有非线性关系,以及 检测器(22)根据激光的强度检测信号光,以基于信号光的饱和分量或非线性增加分量进行观察。
    • 10. 发明授权
    • Microscope
    • 显微镜
    • US09582088B2
    • 2017-02-28
    • US14006500
    • 2012-03-22
    • Satoshi KawataMinoru KobayashiTaisuke OtaTomoya UchiyamaNaoyoshi KubotaShogo Kawano
    • Satoshi KawataMinoru KobayashiTaisuke OtaTomoya UchiyamaNaoyoshi KubotaShogo Kawano
    • H04N7/18H04N9/47G06F3/041G02B21/36
    • G06F3/041G02B21/36H04N7/18
    • A touch screen (60) disposed on a display surface of a display means (58) is used as an inputting means so that a variety of actions of a microscope can be controlled with sufficient ease and precision.A variety of actions are controlled based on an operator's various finger gestures used on the touch screen disposed on the display surface of the display means, for example, making contact by a finger (tap), making two consecutive contacts by a finger (double-tap), making contact by a finger, and moving the finger without releasing it (drag), making contact by a finger and maintaining the contact for a predetermined time or longer (touch-and-hold), making simultaneous contact by two fingers, and increasing spacing between the fingers (pinch-out) or decreasing the spacing (pinch-in), and making simultaneous contact by two fingers, and moving the fingers in parallel (double-drag).
    • 基于操作者在显示装置的显示表面上设置的触摸屏上使用的各种手指手势来控制各种动作,例如通过手指(抽头)进行接触,通过手指(双重)进行两次连续的接触, 点击),通过手指进行接触,并且移动手指而不释放(拖动),通过手指进行接触并将触点保持预定时间或更长时间(触摸并保持),同时通过两个手指接触, 并增加手指之间的间距(挤出)或减小间距(夹紧),并通过两个手指进行同时接触,并平行移动手指(双重拖动)。