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    • 1. 发明申请
    • FRACTIONAL RAMAN ORDER PUMPING IN OPTICAL COMMUNICATION SYSTEMS
    • 光通信系统中的分段拉曼排序
    • US20100103957A1
    • 2010-04-29
    • US12508416
    • 2009-07-23
    • Herve A. FevrierAndrej B. PucDo-Il ChangAndrzej S. Kaminski
    • Herve A. FevrierAndrej B. PucDo-Il ChangAndrzej S. Kaminski
    • H01S3/30
    • An optical communication system includes a gain medium that receives optical signal(s) of one or more optical signal wavelengths. The system also includes pump source(s) that are capable of generating at least a first pump signal and a second pump signal. The first pump signal includes at least one integer Raman order wavelength that includes a Raman gain peak that is one stokes shift away from at least one of the one or more optical signal wavelengths. The second pump signal includes at least one fractional Raman order pump wavelength that includes a Raman gain peak that is a non-integer multiple of a stokes shift from each of the one or more optical signal wavelengths. Optionally, there might be one or more other pump signals that do not satisfy the criteria specified for the first pump signal or the second pump signal.
    • 光通信系统包括接收一个或多个光信号波长的光信号的增益介质。 该系统还包括能够产生至少第一泵信号和第二泵信号的泵浦源。 第一泵浦信号包括至少一个整数拉曼阶波长,其包括远离一个或多个光信号波长中的至少一个的一个斯托克斯偏移的拉曼增益峰值。 第二泵浦信号包括至少一个分数拉曼级泵浦波长,其包括拉曼增益峰值,拉曼增益峰值是来自一个或多个光信号波长中的每一个的斯托克斯偏移的非整数倍。 可选地,可能存在不满足为第一泵浦信号或第二泵浦信号指定的标准的一个或多个其它泵浦信号。
    • 2. 发明授权
    • Remote larger effective area optical fiber
    • 远程更大的有效面积的光纤
    • US07869673B2
    • 2011-01-11
    • US12202100
    • 2008-08-29
    • Do-Il ChangAndrej B. Puc
    • Do-Il ChangAndrej B. Puc
    • G02B6/28H01S3/00
    • H04B10/2543G02B6/02019H04B10/2916
    • Embodiments described herein relate to an optical fiber stretch that may experience forward Raman amplification in which the peak optical signal power occurs at some distance from the transmitter. Smaller effective area optical fiber is used at a portion of the optical fiber stretch in which the optical signal power is increasing, while larger effective area optical fiber is used at a more remote stretch of the optical fiber stretch that experiences the peak optical signal power. Thus, the quality of the signal is better preserved since the larger effective area fiber reduces maximum optical signal density thereby reducing non-linear degradations on signal quality.
    • 本文所描述的实施例涉及可以经历向前拉曼放大的光纤拉伸,其中峰值光信号功率在距发射机一定距离处发生。 在光信号功率增加的部分光纤拉伸中使用较小的有效面积的光纤,而在经受峰值光信号功率的光纤拉伸的更远的拉伸处使用更大的有效面积的光纤。 因此,由于较大的有效面积的光纤降低了最大的光信号密度,从而降低信号质量的非线性劣化,从而更好地保持信号的质量。
    • 7. 发明授权
    • Introduction-side dispersion shifting of channels
    • 通道的引入侧色散移位
    • US08380069B2
    • 2013-02-19
    • US12909721
    • 2010-10-21
    • Wayne S. PelouchDo-Il Chang
    • Wayne S. PelouchDo-Il Chang
    • H04J14/02
    • H04B10/2513H04B10/61H04B10/66
    • The mixing of coherent optical wavelength channels with non-coherent optical wavelength channels. Before mixing, a dispersive element introduces dispersion into the coherent optical wavelength channels and/or into the non-coherent optical wavelength channels such that the dispersion map of the coherent optical wavelength channels is different than the dispersion map of the non-coherent optical wavelength channels. By allowing the coherent channels to have a different dispersion map, the dispersion map may be moved further from the zero dispersion point, which can degrade coherent detection. Accordingly, coherent optical channels and non-coherent optical channels may be transmitted effectively over the same optical link.
    • 相干光波长通道与非相干光波长通道的混合。 在混合之前,色散元件将相干光波长通道中的色散和/或非相干光波长通道引入色散,使得相干光波长通道的色散图与非相干光波长通道的色散图不同 。 通过允许相干通道具有不同的色散图,色散图可以从零色散点进一步移动,这可以降低相干检测。 因此,相干光信道和非相干光信道可以在相同的光链路上有效传输。