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    • 67. 发明授权
    • Method for fabricating neutron supermirror using neutron monochromator structures
    • 使用中子单色器结构制造中子超镜的方法
    • US07635839B2
    • 2009-12-22
    • US11695073
    • 2007-04-02
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • B21D33/00G21C7/00
    • G21K1/062B82Y10/00G21K2201/067G21K2201/068Y10S376/904Y10S376/906Y10T29/301Y10T29/303
    • A method for fabricating a supermirror for forming a neutron guide. In the method, a neutron supermirror, which is widely used in the formation of thin films in cold neutron guides and the spectrometer field, is fabricated with nickel thin films and titanium thin films, having varying thickness, using a combination of monochromator structures in which nickel thin films and titanium thin films, having the same thickness, are stacked in the form of periodic structures. According to the method, a combination of monochromator structures having a variety of different thicknesses is formed, such that the amount of the overlap of peaks due to the monochromator structures can be adjusted to increase reflectivity, and some of the monochromator structures can be removed during the fabrication of the supermirror to make it easy to extract monochromatic beams, such that it is easy to fabricate a transmission monochromator, rather than a reflection monochromator.
    • 一种用于制造用于形成中子引导件的超镜的方法。 在该方法中,广泛用于在冷中子导向器和光谱仪场中形成薄膜的中子超镜由具有不同厚度的镍薄膜和钛薄膜制成,使用单色器结构的组合,其中 具有相同厚度的镍薄膜和钛薄膜以周期性结构的形式堆叠。 根据该方法,形成具有各种不同厚度的单色器结构的组合,使得可以调节由于单色器结构引起的峰的重叠量以增加反射率,并且可以在一些单色器结构中去除一些单色器结构 超镜的制造使得易于提取单色光束,使得易于制造透射单色仪而不是反射单色仪。
    • 69. 发明授权
    • Light source capable of lasing that is wavelength locked by an injected light signal
    • 能够通过注入的光信号波长锁定的能够激发的光源
    • US07515626B2
    • 2009-04-07
    • US10558820
    • 2003-05-29
    • Chang-Hee LeeWayne V. Sorin
    • Chang-Hee LeeWayne V. Sorin
    • H01S3/092
    • H04J14/02H04B10/2587H04B10/506H04J14/0226H04J14/0246H04J14/025H04J14/0282
    • Various methods, systems, and apparatuses are described in which a light source (101) capable of lasing is wavelength locked by an injected light signal. The light source (101) capable of lasing, such as a Fabry-Perot laser diode, may have antireflective coating on one or more facets of the light source (101) capable of lasing. The light source (101) capable of lasing receives a spectral slice of a light signal from a broadband light source (113) to wavelength lock the output wavelength of the light source (101) capable of lasing within the bandwidth of the injected light signal. A current pump (141) may bias the light source (101) capable of lasing to operate as a reflective regenerate semiconductor optical amplifier so that the injected light is reflected back out a front facet after being amplified and wavelength locked. The current pump (141) may also bias the light source (101) capable of lasing such that the externally injected narrow-band light signal into the light source (101) capable of lasing suppresses the lasing modes outside of the bandwidth of injected incoherent light.
    • 描述了可以通过注入的光信号波长锁定能够激光的光源(101)的各种方法,系统和装置。 能够激光的光源(101),例如法布里 - 珀罗激光二极管,可以在能够发射的光源(101)的一个或多个面上具有抗反射涂层。 能够进行激光的光源(101)从宽带光源(113)接收光信号的光谱片,以在注入的光信号的带宽内波长锁定能够发光的光源(101)的输出波长。 电流泵(141)可以偏置能够发光的光源(101)作为反射再生半导体光放大器工作,使得注入的光在被放大和波长锁定之后被反射回前面。 电流泵(141)也可以偏置能够发射的光源(101),从而外部注入的窄带光信号进入能够激发的光源(101)中抑制注入非相干光带宽以外的激光模式 。
    • 70. 发明申请
    • Method for fabricating neutron supermirror using neutron monochromator structures
    • 使用中子单色器结构制造中子超镜的方法
    • US20080115338A1
    • 2008-05-22
    • US11695073
    • 2007-04-02
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • Sang-Jin ChoChang-Hee LeeHark-Rho KimJi-Yong So
    • B21D33/00
    • G21K1/062B82Y10/00G21K2201/067G21K2201/068Y10S376/904Y10S376/906Y10T29/301Y10T29/303
    • A method for fabricating a supermirror for forming a neutron guide. In the method, a neutron supermirror, which is widely used in the formation of thin films in cold neutron guides and the spectrometer field, is fabricated with nickel thin films and titanium thin films, having varying thickness, using a combination of monochromator structures in which nickel thin films and titanium thin films, having the same thickness, are stacked in the form of periodic structures. According to the method, a combination of monochromator structures having a variety of different thicknesses is formed, such that the amount of the overlap of peaks due to the monochromator structures can be adjusted to increase reflectivity, and some of the monochromator structures can be removed during the fabrication of the supermirror to make it easy to extract monochromatic beams, such that it is easy to fabricate a transmission monochromator, rather than a reflection monochromator.
    • 一种用于制造用于形成中子引导件的超镜的方法。 在该方法中,广泛用于在冷中子导向器和光谱仪场中形成薄膜的中子超镜由具有不同厚度的镍薄膜和钛薄膜制成,使用单色器结构的组合,其中 具有相同厚度的镍薄膜和钛薄膜以周期性结构的形式堆叠。 根据该方法,形成具有各种不同厚度的单色器结构的组合,使得可以调节由于单色器结构引起的峰的重叠量以增加反射率,并且可以在一些单色器结构中去除一些单色器结构 超镜的制造使得易于提取单色光束,使得易于制造透射单色仪而不是反射单色仪。