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    • 1. 发明授权
    • All optical regeneration
    • 所有光学再生
    • US07224863B1
    • 2007-05-29
    • US10661184
    • 2003-09-12
    • Yuhua LiGuifang Li
    • Yuhua LiGuifang Li
    • G02B6/26
    • H04B10/299G02B6/02028
    • All optical regeneration methods and systems can be realized through an exponential amplifier and a limiting amplifier, which could be two independent devices (one piece of fiber with parametric amplification and a semiconductor optical amplifier operating at saturation state) or one single device (one piece of fiber). The signal quality and the extinction ratio after regeneration are significantly improved compared with the degraded incoming data using a parametric amplifier with the data signal to be regenerated as the pump. The regenerated data has an extinction ratio as high as 14 dB, an extinction ratio enhancement of approximately 5 dB and an approximately 5 dB negative power penalty. This regeneration schemes are format transparent (RZ and NRZ), and provide noise reduction both for bit 1's and bit 0's of the data sequence. The regeneration method and apparatus that just utilizes fibers has the additional capability of ultrafast response speed (several femtoseconds due to the Kerr effect).
    • 所有光学再生方法和系统都可以通过指数放大器和限幅放大器来实现,该放大器可以是两个独立的器件(一个具有参数放大的光纤和在饱和状态下工作的半导体光放大器)或一个单一器件 纤维)。 再生后的信号质量和消光比与使用参数放大器的劣化输入数据相比显着提高,数据信号作为泵再生。 再生数据具有高达14dB的消光比,大约5dB的消光比增强和大约5dB的负功率损耗。 这种再生方案是格式透明的(RZ和NRZ),并且为数据序列的位1和位0提供降噪。 刚刚利用光纤的再生方法和装置具有超快速响应速度(由于克尔效应而产生的几个飞秒)的附加能力。
    • 5. 发明授权
    • Systems for extending WDM transmission into the O-band
    • 将WDM传输扩展到O波段的系统
    • US08503881B1
    • 2013-08-06
    • US12062030
    • 2008-04-03
    • Guifang Li
    • Guifang Li
    • H04J14/02
    • H04J14/02H04B10/2525H04B10/506H04J14/0279H04J14/06
    • Method, apparatus and systems for a wavelength division multiplexing system operating at O-Band. The system includes a transmitter for wavelength division multiplexing digital O-band optical channels into a multiplexed optical signal, amplifying and transmitting the multiplexed optical signal, a fiber transmission span using constant intensity modulation and semiconductor optical amplification, and a receiver for receiving and amplifying the transmitted multiplexed optical signal and restoring the individual digital O-band optical signals. In an embodiment, the transmission span is a single mode fiber transmission span and in another embodiment includes an optical amplifier module coupled into the fiber transmission span. In another embodiment, the transmission span includes a length of O-band dispersion compensating fiber to reduce four-wave mixing. In another embodiment the system uses wavelength division multiplexing in combination with polarization interleaving. In another embodiment, the wavelength division multiplexing system operates at both O-Band and C-Band.
    • 用于在O波段操作的波分复用系统的方法,装置和系统。 该系统包括用于将数字O波段光信道波分复用为复用光信号,放大和发送复用光信号的发射机,使用恒定强度调制和半导体光放大的光纤传输跨度,以及用于接收和放大 传输复用光信号和恢复各个数字O波段光信号。 在一个实施例中,传输跨度是单模光纤传输跨度,并且在另一实施例中包括耦合到光纤传输范围内的光放大器模块。 在另一个实施例中,传输跨度包括一段O波段色散补偿光纤以减少四波混频。 在另一个实施例中,该系统结合使用波分复用与极化交织。 在另一个实施例中,波分复用系统在O波段和C波段两者下工作。
    • 7. 发明授权
    • Systems and methods for adaptive interference cancellation
    • 自适应干扰消除的系统和方法
    • US07856184B2
    • 2010-12-21
    • US11846232
    • 2007-08-28
    • Guifang Li
    • Guifang Li
    • H04B10/00H04B10/04
    • H04B10/25758
    • In one embodiment a communications system includes an RF receiver that receives a desired signal and the interference signal, a first phase modulator that receives the desired signal and the interference signal from the RF receiver and generates a resulting optical signal, a second phase modulator that generates a modulated optical signal relative to an inverse interference signal and transmits the modulated optical signal to the first phase modulator, and a detector that receives the resulting optical signal from the first phase modulator and detects the desired signal, wherein the resulting optical signal comprises a modulated optical signal generated by the first phase modulator relative to the desired signal and the interference signal received from the RF receiver and relative to the modulated optical signal received from the second phase modulator.
    • 在一个实施例中,通信系统包括接收期望信号和干扰信号的RF接收机,接收所需信号的第一相位调制器和来自RF接收机的干扰信号并产生所得到的光信号,第二相位调制器产生 相对于反相干扰信号的调制光信号,并将经调制的光信号发射到第一相位调制器;以及检测器,其接收来自第一相位调制器的结果光信号并检测所需信号,其中所得到的光信号包括调制的 由第一相位调制器相对于期望信号产生的光信号和从RF接收机接收的干扰信号和相对于从第二相位调制器接收的调制光信号。
    • 8. 发明授权
    • Inductively coupled plasma generating devices
    • 电感耦合等离子体发生装置
    • US5619103A
    • 1997-04-08
    • US486917
    • 1995-06-07
    • Jeffrey A. TobinGuifang Li
    • Jeffrey A. TobinGuifang Li
    • H01J37/32H01J65/04H01J7/24
    • H01J37/321H01J65/048
    • A broad area plasma lighting device in which a sealed gas envelope placed adjacent to a planar inductive coupling structure generates visible light. Representative planar inductive coupling structures include a planar spiral coil and a parallel conductor coupling structure. According to the invention, a parallel conductor coupling structure has two basic forms: separate parallel conductors each driven by its own generator/tuning circuit, or single conductor such as a flattened helix or series of square coils driven by one generator/tuning circuit. In addition, a plasma generating device having one or more parallel conductor inductive coupling structures is described. The resulting plasma generator can be used in such applications as plasma processing and inductive plasma lighting.
    • 一种广泛的等离子体照明装置,其中与平面感应耦合结构相邻放置的密封气体封套产生可见光。 代表性的平面感应耦合结构包括平面螺旋线圈和平行导体耦合结构。 根据本发明,并联导体耦合结构具有两种基本形式:每个由其自身的发电机/调谐电路驱动的单独的并联导体,或由一个发电机/调谐电路驱动的扁平螺旋或一系列方形线圈的单导体。 此外,描述了具有一个或多个平行导体感应耦合结构的等离子体产生装置。 所得到的等离子体发生器可用于等离子体处理和感应等离子体照明等应用。