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    • 4. 发明申请
    • Super luminescent diode and manufacturing method thereof
    • 超级发光二极管及其制造方法
    • US20070126027A1
    • 2007-06-07
    • US11634882
    • 2006-12-07
    • Yoshikatsu Morishima
    • Yoshikatsu Morishima
    • H01L31/00
    • H01L33/0045
    • To provide a superluminescent diode capable of emitting high output super luminescent light having a central wavelength within a range of 0.95 μm to 1.2 μm and an undistorted beam cross section, having a long element life. The super luminescent diode is constituted by: an n-type GaAs substrate; an optical waveguide path constituted by an InGaAs active layer that emits light having a central wavelength within a range of 0.95 μm to 1.2 μm, formed on the GaAs substrate; and a window region layer having a greater energy gap and a smaller refractive index than the active layer, constituted by p-type GaAs that lattice matches with the GaAs substrate, provided at a rear emitting facet of the optical waveguide path. The p-type GaAs window region layer has a favorable crystal membrane with the InGaAs active layer that emits light having the central wavelength within the range of 0.95 μm to 1.2 μm, which does not deteriorate.
    • 为了提供能够发射具有0.95μm到1.2μm的中心波长的高输出超发光的超发光二极管和具有长元件寿命的无失真的光束横截面。 超发光二极管由n型GaAs衬底构成; 形成在GaAs衬底上的由InGaAs有源层构成的光波导路径,其发射中心波长在0.95μm〜1.2μm范围内的光; 以及设置在光波导路径的后发光面的具有比与GaAs衬底晶格匹配的p型GaAs构成的有源层更大的能隙和更小的折射率的窗口区域层。 p型GaAs窗口区域具有良好的晶体膜,其中InGaAs有源层发射中心波长在0.95μm至1.2μm范围内的光,其不劣化。
    • 5. 发明申请
    • Optical tomography apparatus
    • 光学断层摄影装置
    • US20060215170A1
    • 2006-09-28
    • US11298626
    • 2005-12-12
    • Masahiro ToidaKazuhiro TsujitaYoshikatsu MorishimaHiroshi Fujita
    • Masahiro ToidaKazuhiro TsujitaYoshikatsu MorishimaHiroshi Fujita
    • G01B9/02
    • G01N21/4795A61B5/0066A61B5/0073A61B5/6852
    • A (Δλ) 75 μm low coherence light beam is emitted. The low coherence light beam has wavelength properties suited for the light absorbing properties, the diffusion properties, and the dispersion properties of living tissue. A light dividing means divides the low coherence light beam into a measuring light beam, which is irradiated onto a measurement target via an optical probe, and a reference light beam that propagates toward an optical path length adjusting means. A multiplexing means multiplexes a reflected light beam, which is the measuring light beam reflected at a predetermined depth of the measurement target, and the reference light beam, to form a coherent light beam. A coherent light beam detecting means detects the optical intensity of the multiplexed coherent light beam. An image obtaining means performs image processes, and displays an optical tomographic image on a display apparatus.
    • A(Deltalambda)75毫米低相干光束被发射。 低相干光束具有适合于吸光性能,扩散性能和生物体组织分散性能的波长特性。 光分割装置将低相干光束分成通过光学探针照射到测量目标上的测量光束和朝向光程长度调节装置传播的参考光束。 多路复用装置将作为测量对象的预定深度反射的测量光束的反射光和参考光束多路复用,以形成相干光束。 相干光束检测装置检测多路复用相干光束的光强度。 图像获取装置执行图像处理,并在显示装置上显示光学断层图像。
    • 6. 发明申请
    • Optical tomography apparatus
    • 光学断层摄影装置
    • US20060132791A1
    • 2006-06-22
    • US11298478
    • 2005-12-12
    • Masahiro ToidaYoshikatsu Morishima
    • Masahiro ToidaYoshikatsu Morishima
    • G01B9/02
    • G01N21/4795A61B5/0059A61B5/0066
    • A (Δλ) 75 μm low coherence light beam is emitted. The low coherence light beam has wavelength properties suited for the light absorbing properties, the diffusion properties, and the dispersion properties of living tissue. A light dividing means divides the low coherence light beam into a measuring light beam, which is irradiated onto a measurement target via an optical probe, and a reference light beam that propagates toward an optical path length adjusting means. A multiplexing means multiplexes a reflected light beam, which is the measuring light beam reflected at a predetermined depth of the measurement target, and the reference light beam, to form a coherent light beam. A coherent light beam detecting means detects the optical intensity of the multiplexed coherent light beam. AN image obtaining means performs image processes, and displays an optical tomographic image on a display apparatus.
    • A(Deltalambda)75毫米低相干光束被发射。 低相干光束具有适合于吸光性能,扩散性能和生物体组织分散性能的波长特性。 光分割装置将低相干光束分成通过光学探针照射到测量目标上的测量光束和朝向光程长度调节装置传播的参考光束。 多路复用装置将作为测量对象的预定深度反射的测量光束的反射光和参考光束多路复用,以形成相干光束。 相干光束检测装置检测多路复用相干光束的光强度。 AN图像获取装置执行图像处理,并且在显示装置上显示光学断层图像。
    • 8. 发明授权
    • Optical tomography apparatus
    • 光学断层摄影装置
    • US07450242B2
    • 2008-11-11
    • US11535361
    • 2006-09-26
    • Masahiro ToidaYoshikatsu MorishimaKazuhiro TsujitaHiroshi Fujita
    • Masahiro ToidaYoshikatsu MorishimaKazuhiro TsujitaHiroshi Fujita
    • G01B9/02
    • G01B9/02004A61B5/0066A61B5/0071A61B5/0073A61B5/0084A61B5/0086G01B9/02003G01B9/02014G01B9/02044G01B9/02091G01J3/10G01N21/4795
    • Low coherence light having a central wavelength λc of 1.1 μm and a full width at half maximum spectrum Δλ of 90 nm is emitted. The low coherence light has wavelength properties suited for the light absorbing properties, the diffusion properties, and the dispersion properties of living tissue. A light dividing means divides the low coherence light into a measuring light beam, which is irradiated onto a measurement target via an optical probe, and a reference light beam that propagates toward an optical path length adjusting means. A multiplexing means multiplexes a reflected light beam, which is the measuring light beam reflected at a predetermined depth of the measurement target, and the reference light beam, to form coherent light. A coherent light detecting means detects the optical intensity of the multiplexed coherent light. An image obtaining means performs image processes, and displays an optical tomographic image on a display apparatus.
    • 发射具有1.1μm的中心波长lambdac和半峰全宽度的低相干光,发射90nm的Deltalambda。 低相干光具有适合于吸光性能,扩散性能和生物体组织的分散性能的波长特性。 光分割装置将低相干光分成通过光学探针照射到测量对象上的测量光束和朝向光程长度调节装置传播的参考光束。 多路复用装置将作为在测量对象的预定深度处反射的测量光束的反射光和参考光束进行多路复用,以形成相干光。 相干光检测装置检测多路复用相干光的光强度。 图像获取装置执行图像处理,并在显示装置上显示光学断层图像。
    • 9. 发明授权
    • Super luminescent diode and manufacturing method thereof
    • 超级发光二极管及其制造方法
    • US07541622B2
    • 2009-06-02
    • US11634882
    • 2006-12-07
    • Yoshikatsu Morishima
    • Yoshikatsu Morishima
    • H01L33/00
    • H01L33/0045
    • To provide a superluminescent diode capable of emitting high output super luminescent light having a central wavelength within a range of 0.95 μm to 1.2 μm and an undistorted beam cross section, having a long element life. The super luminescent diode is constituted by: an n-type GaAs substrate; an optical waveguide path constituted by an InGaAs active layer that emits light having a central wavelength within a range of 0.95 μm to 1.2 μm, formed on the GaAs substrate; and a window region layer having a greater energy gap and a smaller refractive index than the active layer, constituted by p-type GaAs that lattice matches with the GaAs substrate, provided at a rear emitting facet of the optical waveguide path. The p-type GaAs window region layer has a favorable crystal membrane with the InGaAs active layer that emits light having the central wavelength within the range of 0.95 μm to 1.2 μm, which does not deteriorate.
    • 为了提供能够发射具有0.95μm到1.2μm的中心波长的高输出超发光的超发光二极管和具有长元件寿命的无失真的光束横截面。 超发光二极管由n型GaAs衬底构成; 形成在GaAs衬底上的由InGaAs有源层构成的光波导路径,其发射中心波长在0.95μm〜1.2μm范围内的光; 以及设置在光波导路径的后发光面的具有比与GaAs衬底晶格匹配的p型GaAs构成的有源层更大的能隙和更小的折射率的窗口区域层。 p型GaAs窗口区域具有良好的晶体膜,其中InGaAs有源层发射中心波长在0.95μm至1.2μm范围内的光,其不劣化。