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    • 2. 发明申请
    • Polarization Demultiplexing Using Independent Component Analysis
    • 使用独立分量分析的极化解复用
    • US20110255858A1
    • 2011-10-20
    • US13071499
    • 2011-03-24
    • Xiaobo XieGuifang LiFatih Yaman
    • Xiaobo XieGuifang LiFatih Yaman
    • H04J14/00
    • H04J14/06
    • Systems and methods of polarizaton demultiplexing are disclosed. One such method receives a transmitted polarization-multiplexed optical signal The polarization-multiplexed has multiple polarizations, each of which represents an independent data stream. The method converts the polarization-multiplexed optical signal to a corresponding polarization-multiplexed electrical signal. The method determines an inverse transformation matrix that meets an independent component analysis (ICA) criterion. The method applies the inverse transformation matrix to the polarization-multiplexed electrical signal, which produces a polarization-demultiplexed electrical signal. The method phase estimates the polarization-demultiplexed electrical signal to recover the data stream.
    • 公开了极化解复用的系统和方法。 一种这样的方法接收发送的偏振复用光信号。偏振复用具有多个极化,每个偏振表示独立的数据流。 该方法将偏振复用光信号转换为对应的偏振复用电信号。 该方法确定满足独立分量分析(ICA)标准的逆变换矩阵。 该方法将逆变换矩阵应用于偏振复用电信号,产生偏振解复用的电信号。 方法阶段估计偏振解复用的电信号以恢复数据流。
    • 3. 发明授权
    • Polarization demultiplexing using independent component analysis
    • 使用独立分量分析的极化解复用
    • US08699889B2
    • 2014-04-15
    • US13071499
    • 2011-03-24
    • Xiaobo XieGuifang LiFatih Yaman
    • Xiaobo XieGuifang LiFatih Yaman
    • H04B10/06H04J14/04
    • H04J14/06
    • Systems and methods of polarization demultiplexing are disclosed. One such method receives a transmitted polarization-multiplexed optical signal The polarization-multiplexed has multiple polarizations, each of which represents an independent data stream. The method converts the polarization-multiplexed optical signal to a corresponding polarization-multiplexed electrical signal. The method determines an inverse transformation matrix that meets an independent component analysis (ICA) criterion. The method applies the inverse transformation matrix to the polarization-multiplexed electrical signal, which produces a polarization-demultiplexed electrical signal. The method phase estimates the polarization-demultiplexed electrical signal to recover the data stream.
    • 公开了偏振解复用的系统和方法。 一种这样的方法接收发送的偏振复用光信号。偏振复用具有多个极化,每个偏振表示独立的数据流。 该方法将偏振复用光信号转换为对应的偏振复用电信号。 该方法确定满足独立分量分析(ICA)标准的逆变换矩阵。 该方法将逆变换矩阵应用于偏振复用电信号,产生偏振解复用的电信号。 方法阶段估计偏振解复用的电信号以恢复数据流。
    • 7. 发明授权
    • Silicon photonic fiber and method of manufacture
    • 硅光子纤维及其制造方法
    • US08813522B2
    • 2014-08-26
    • US12578958
    • 2009-10-14
    • Guifang LiFatih Yaman
    • Guifang LiFatih Yaman
    • G02B6/02
    • C01B33/023G02B6/02328G02B6/02361G02B6/102G02B2006/12061G02B2006/12169
    • Methods of converting silica to silicon and fabricating silicon photonic crystal fiber (PCF) are disclosed. Silicon photonic crystal fibers made by the fabrication methods are also disclosed. One fabrication method includes: sealing silica PCF and a quantity of magnesium within a container, the quantity of magnesium defined by 2Mg(g)+SiO2(s)→2MgO(s)+Si(s); converting silica PCF to a reacted PCF through magnesiothermic reduction; and converting the reacted PCF to the fabricated silicon PCF by selective dissolution of the reacted PCF in an acid. Another fabrication method includes: adding silica PCF and a quantity of solid magnesium to an unsealed container, the quantity of magnesium substantially in excess of that defined by 2Mg(g)+SiO2(s)→2MgO(s)+Si(s); converting silica PCF to a reacted PCF through magnesiothermic reduction; and converting the reacted PCF to the fabricated silicon PCF by selective dissolution of the reacted PCF in an acid.
    • 公开了将二氧化硅转化为硅并制造硅光子晶体光纤(PCF)的方法。 还公开了通过制造方法制造的硅光子晶体光纤。 一种制造方法包括:将二氧化硅PCF和一定量的镁密封在容器内,由2Mg(g)+ SiO 2(s)→2MgO(s)+ Si(s)限定的镁的量; 通过氧化镁还原将二氧化硅PCF转化为反应的PCF; 并通过将反应的PCF选择性溶解在酸中将反应的PCF转化成制造的硅PCF。 另一种制造方法包括:将二氧化硅PCF和一定量的固体镁添加到未密封的容器中,镁的量基本上超过由2Mg(g)+ SiO 2(s)→2MgO(s)+ Si(s)限定的镁; 通过氧化镁还原将二氧化硅PCF转化为反应的PCF; 并通过将反应的PCF选择性溶解在酸中将反应的PCF转化成制造的硅PCF。
    • 8. 发明申请
    • Silicon Photonic Fiber and Method of Manufacture
    • 硅光子纤维及其制造方法
    • US20100092141A1
    • 2010-04-15
    • US12578958
    • 2009-10-14
    • Guifang LiFatih Yaman
    • Guifang LiFatih Yaman
    • G02B6/02G02B6/00C01B33/023
    • C01B33/023G02B6/02328G02B6/02361G02B6/102G02B2006/12061G02B2006/12169
    • Methods of converting silica to silicon and fabricating silicon photonic crystal fiber (PCF) are disclosed. Silicon photonic crystal fibers made by the fabrication methods are also disclosed. One fabrication method includes: sealing silica PCF and a quantity of magnesium within a container, the quantity of magnesium defined by 2Mg(g)+SiO2(s)→2MgO(s)+Si(s); converting silica PCF to a reacted PCF through magnesiothermic reduction; and converting the reacted PCF to the fabricated silicon PCF by selective dissolution of the reacted PCF in an acid. Another fabrication method includes: adding silica PCF and a quantity of solid magnesium to an unsealed container, the quantity of magnesium substantially in excess of that defined by 2Mg(g)+SiO2(s)→2MgO(s)+Si(s); converting silica PCF to a reacted PCF through magnesiothermic reduction; and converting the reacted PCF to the fabricated silicon PCF by selective dissolution of the reacted PCF in an acid.
    • 公开了将二氧化硅转化为硅并制造硅光子晶体光纤(PCF)的方法。 还公开了通过制造方法制造的硅光子晶体光纤。 一种制造方法包括:将二氧化硅PCF和一定量的镁密封在容器内,由2Mg(g)+ SiO 2(s)→2MgO(s)+ Si(s)定义的镁的量; 通过氧化镁还原将二氧化硅PCF转化为反应的PCF; 并通过将反应的PCF选择性溶解在酸中将反应的PCF转化成制造的硅PCF。 另一种制造方法包括:将二氧化硅PCF和一定量的固体镁添加到未密封的容器中,镁的量基本上超过由2Mg(g)+ SiO 2(s)→2MgO(s)+ Si(s)限定的镁; 通过氧化镁还原将二氧化硅PCF转化为反应的PCF; 并通过将反应的PCF选择性溶解在酸中将反应的PCF转化成制造的硅PCF。
    • 9. 发明申请
    • Silicon Photonic Fiber and Method of Manufacture
    • 硅光子纤维及其制造方法
    • US20140328741A1
    • 2014-11-06
    • US14333843
    • 2014-07-17
    • Guifang LiFatih Yaman
    • Guifang LiFatih Yaman
    • C01B33/023G02B6/10
    • C01B33/023G02B6/02328G02B6/02361G02B6/102G02B2006/12061G02B2006/12169
    • Methods of converting silica to silicon and fabricating silicon photonic crystal fiber (PCF) are disclosed. Silicon photonic crystal fibers made by the fabrication methods are also disclosed. One fabrication method includes: sealing silica PCF and a quantity of magnesium within a container, the quantity of magnesium defined by 2Mg(g)+SiO2(s)->2MgO(s)+Si(s); converting silica PCF to a reacted PCF through magnesiothermic reduction; and converting the reacted PCF to the fabricated silicon PCF by selective dissolution of the reacted PCF in an acid. Another fabrication method includes: adding silica PCF and a quantity of solid magnesium to an unsealed container, the quantity of magnesium substantially in excess of that defined by 2Mg(g)+SiO2(s)->2MgO(s)+Si(s); converting silica PCF to a reacted PCF through magnesiothermic reduction; and converting the reacted PCF to the fabricated silicon PCF by selective dissolution of the reacted PCF in an acid.
    • 公开了将二氧化硅转化为硅并制造硅光子晶体光纤(PCF)的方法。 还公开了通过制造方法制造的硅光子晶体光纤。 一种制造方法包括:将二氧化硅PCF和一定量的镁密封在容器内,由2Mg(g)+ SiO 2(s)〜> 2MgO(s)+ Si(s)限定的镁的量; 通过氧化镁还原将二氧化硅PCF转化为反应的PCF; 并通过将反应的PCF选择性溶解在酸中将反应的PCF转化成制造的硅PCF。 另一种制造方法包括:将二氧化硅PCF和一定量的固体镁添加到未密封的容器中,镁的量基本上超过由2Mg(g)+ SiO 2(s)>> 2MgO(s)+ Si ; 通过氧化镁还原将二氧化硅PCF转化为反应的PCF; 并通过将反应的PCF选择性溶解在酸中将反应的PCF转化成制造的硅PCF。