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    • 1. 发明授权
    • Fiber-optic long-haul transmission system
    • 光纤长途传输系统
    • US08139951B2
    • 2012-03-20
    • US12215363
    • 2008-06-26
    • Igor SamartsevVladimir Antonenko
    • Igor SamartsevVladimir Antonenko
    • H04B10/08H04B10/16
    • H04J14/0221H04B10/07955H04B2210/08
    • An ultra-long fiber-optic transmission system is configured in accordance with the current telecom standards and particularly advantageous for transmission data at a long distance which may exceed 400 km between adjacent nodes. The disclosed system has at least one intermediate amplifying node provided with a supervisory optical channel (SOC) which carries information between spaced nodes about the multi-wavelength optical signal as well as remote conditions at the optical terminal or regeneration site. The SOC comprises a transponder operative to select the direction in which an optical supervisory signal OSS, carrying information about the fiber break and malfunction of WDM channels, is transmitted along the SOC. The transponder further includes a receiver operative to measure the power of incoming OSS signal, which is indicative of the power of the transmitted and amplified WDM signal, and a Raman controller. The latter is coupled to the receiver and operative to either turn or turn off a pump of Raman amplifier based on determination of whether the measured power is lower than or at least equal to a reference value. The transponder is further configured with a transmitter configured as a fiber laser which operates in at least two modes. In the first mode when the measured power as at least equal to the reference value, the fiber laser emits the OSS having a nominal power. In the second mode, when the measured power is less than the reference value, the transmitter is operative to lase the OSS having a greater than nominal power even if Raman and EDFA amplifiers of the amplification node are disabled. The utilization of the fiber laser enhances the reliability and control of the long fiber-haul system's operation.
    • 根据当前电信标准配置超长光纤传输系统,并且对于相邻节点之间可能超过400km的长距离的传输数据特别有利。 所公开的系统具有至少一个中间放大节点,其设置有在多个波长光信号之间的间隔节点之间携带信息的监控光信道(SOC)以及在光学终端或再生站点处的远程条件。 SOC包括一个转发器,用于选择携带关于光纤中断和WDM信道故障的信息的光监控信号OSS沿SOC发送的方向。 应答器还包括接收器,用于测量进入的OSS信号的功率,其表示发射和放大的WDM信号的功率,以及拉曼控制器。 后者耦合到接收器,并且基于确定所测量的功率是否低于或至少等于参考值来操作以使得拉曼放大器的泵转向或关闭。 应答器还配置有被配置为以至少两种模式操作的光纤激光器的发射器。 在第一模式中,当测量的功率至少等于参考值时,光纤激光器发射具有额定功率的OSS。 在第二模式中,当所测量的功率小于参考值时,即使放大节点的拉曼和EDFA放大器被禁用,发射机也可以使具有大于标称功率的OSS发光。 光纤激光器的利用提高了长纤维牵引系统运行的可靠性和可控性。
    • 4. 发明申请
    • Fiber-optic long-haul transmission system
    • 光纤长途传输系统
    • US20090324233A1
    • 2009-12-31
    • US12215363
    • 2008-06-26
    • Igor SamartsevVladimir Antonenko
    • Igor SamartsevVladimir Antonenko
    • H04J14/02H04B10/00
    • H04J14/0221H04B10/07955H04B2210/08
    • An ultra-long fiber-optic transmission system is configured in accordance with the current telecom standards and particularly advantageous for transmission data at a long distance which may exceed 400 km between adjacent nodes. The disclosed system has at least one intermediary amplifying node provided with a supervisory optical channel (SOC) which comprises a transponder operative to select the direction in which a supervisory channel signal (SCS), carrying information about the fiber break and malfunction of WDM channels, is transmitted along the SOC. The transponder further includes a receiver operative to measure the power of incoming and a Raman controller coupled to the receiver and to either turn or turn off a pump of Raman amplifier based on determination of whether the measured power of the SCS is lower than or at least equal to a reference value. The transponder is further configured with a transmitter configured as a fiber laser which operates in at least two modes. In the first mode when the measured power as at least equal to the reference value, the fiber laser emits the having a nominal power. In the second mode, when the measured power of the is less than the reference value, the transmitter is operative to lase the having a greater than nominal power even if Raman and EDFA amplifiers of the amplification node are disabled. The utilization of the fiber laser enhances the reliability and control of the long fiber-haul system's operation.
    • 根据当前电信标准配置超长光纤传输系统,并且对于相邻节点之间可能超过400km的长距离的传输数据特别有利。 所公开的系统具有至少一个具有监控光信道(SOC)的中间放大节点,该监控光信道(SOC)包括一个应答器,该应答器可操作以选择携带关于光纤中断和WDM信道故障的信息的监控信道信号(SCS) 沿SOC发送。 应答器还包括接收器,其操作用于测量进入的功率和耦合到接收器的拉曼控制器,并且基于确定SCS的测量功率是否低于或至少为止,确定是否打开或关闭拉曼放大器的泵 等于参考值。 应答器还配置有被配置为以至少两种模式操作的光纤激光器的发射器。 在第一模式中,当测量的功率至少等于参考值时,光纤激光器发射具有额定功率。 在第二模式中,当测量的功率小于参考值时,即使放大节点的拉曼和EDFA放大器被禁用,发射器也可以使得具有大于标称功率的功能。 光纤激光器的利用提高了长纤维牵引系统运行的可靠性和可控性。
    • 8. 发明申请
    • High Power Ultra-Short Pulse Laser-Illuminated Projector
    • 大功率超短脉冲激光照明投影机
    • US20150219986A1
    • 2015-08-06
    • US14199548
    • 2014-03-06
    • Valentin GapontsevIgor SamartsevAlex Yusim
    • Valentin GapontsevIgor SamartsevAlex Yusim
    • G03B21/20
    • G03B21/2013G03B21/2033G03B21/204G03B21/208
    • A laser illuminated projector system is configured with multiple Red, Green and Blue laser sources. The Green laser source has an all fiber master oscillator power amplifier configuration in which pump light is coupled into the output end of the fiber amplifier in a counter-propagation direction rendering the structure of the Green source and therefore projector system compact. The Green laser source is operative to emit signal light pulses at about 1064 nm wavelength with a pulse repetition reaching of up to about 3000 kHz, pulse duration between about a 100 fm to about 100 psec, an average power between 1.5 W to above 30 W, a peak power above 5 MW, a pulse energy exceeding 100 μJ and a beam quality parameter M2 ranging between 1.2 and 1.5. The thus configured Green laser source substantially reduces speckle otherwise visible on the laser illuminated screen.
    • 激光照明投影仪系统配置有多个红,绿和蓝激光源。 绿色激光源具有全光纤主振荡器功率放大器配置,其中泵浦光以反向传播方向耦合到光纤放大器的输出端,从而呈现绿色源的结构,因此投影仪系统紧凑。 绿色激光源可操作以发射约1064nm波长的信号光脉冲,脉冲重复达到高达约3000kHz,脉冲持续时间在约100fm至约100psec之间,平均功率在1.5W至30W以上 ,峰值功率高于5MW,脉冲能量超过100μJ,光束质量参数M2在1.2和1.5之间。 如此配置的绿色激光源基本上减少了在激光照射屏幕上可见的斑点。
    • 9. 发明授权
    • High power single mode ytterbium fiber laser system with single mode neodymium fiber pump source
    • 大功率单模镱光纤激光系统采用单模钕光纤泵浦源
    • US09036667B2
    • 2015-05-19
    • US13745190
    • 2013-01-18
    • Valentin GapontsevIgor Samartsev
    • Valentin GapontsevIgor Samartsev
    • H01S3/30H01S3/067G02B6/14H01S3/16H01S3/08H01S3/094
    • H01S3/06708G02B6/14H01S3/06729H01S3/06745H01S3/06754H01S3/08045H01S3/094042H01S3/1611H01S3/1618H01S2301/03
    • A high power fiber laser system emitting a substantially diffraction limited beam with a Gaussian intensity profile includes a single mode (“SM”) neodymium fiber pump source outputting a SM pump light; a seed laser operative to emit a SM signal light at a wavelength greater than that of the pump light; a SM DWM receiving and multiplexing the SM pump and signal lights. The disclosed system further includes a booster fiber amplifier which is configured with a frustoconically-shaped ytterbium (“Yb”) doped core receiving the pump and signal lights and configured with a small diameter input end which supports only a SM and a large diameter output end which is capable of supporting the SM and high order modes (:HOM”). The booster further has a cladding surrounding and coextending with the core, the core being configured for having intensity profiles of respective SMs of pump and signal lights overlap one another so that an overlap integral substantially equals to one (1) along an entire length of the core. The SM of the light signal extracts substantially the entire energy from the pump mode leaving the HOMs without amplification necessary to affect a quality of the diffraction limited beam of the system in a MW peak power range and hundreds of watt average power range.
    • 发射具有高斯强度分布的基本衍射受限束的高功率光纤激光器系统包括输出SM泵浦光的单模(“SM”)钕光纤泵浦源; 种子激光器,其以大于泵浦光的波长发射SM信号光; SM DWM接收和复用SM泵和信号灯。 所公开的系统还包括增强光纤放大器,其配置有接收泵和信号灯的截头圆锥形镱(“Yb”)掺杂芯,并配置有仅支持SM和大直径输出端的小直径输入端 它能够支持SM和高阶模式(:HOM“)。 助推器还具有围绕并与芯共同延伸的包层,该芯构造成使得泵和信号光的各个SM的强度分布彼此重叠,使得重叠积分基本上等于沿着整个长度的一(1) 核心。 光信号的SM从泵模式中提取基本上整个能量,留下HOM,而无需扩增,以在MW峰值功率范围和数百瓦特的平均功率范围内影响系统的衍射受限束的质量。