【摘 要】
:
The amplification effects on forward and backward stimulated Brillouin scattering (SBS) lines in the forward pumped S-band distributed G652 fiber Raman amplifier (FRA) have been studied. There is a pump threshold power of Stokes backward stimulated Brillo
【机 构】
:
OptoelectronicsTechnologyInstitute,ChinaJiliangUniversity,Hangzhou310018CollegeofOpticsandElectronic
【出 处】
:
ChineseOpticsLetters
论文部分内容阅读
The amplification effects on forward and backward stimulated Brillouin scattering (SBS) lines in the forward pumped S-band distributed G652 fiber Raman amplifier (FRA) have been studied. There is a pump threshold power of Stokes backward stimulated Brillouin scattering (B-SBS) line in the forward pumped G652 FRA, it is about 1 mW. The Stokes B-SBS lines are amplified by FRA and fiber Brillouin amplifier (FBA). The gain of amplification is given as Ga = GR GB where GR is Raman gain and GB is Brillouin gain. In experimental work, the saturation gain of the first order Stokes backward SBS line is about 58 dB and the saturation gain of 25-km G652 forward FRA is about 25 dB, so the gain of FBA is about 33 dB. The forward stimulated Brillouin scattering (F-SBS) is generated and amplified in S-band G652 FRA. The stimulated threshold powers of the forward first order Stokes SBS (SB-1), second order Stokes SBS (SB-2), and third order SBS (SB-3) in the forward pumped FRA are 2.3, 1.6, and 1.6 mW, respectively. In experimental work, the saturation gains of SB-1, SB-2, and SB-3 are about 38, 62, and 60 dB, respectively. The saturation Raman gain of 25-km G652 forward FRA is about 8.8 dB, so the Brillouin gains of SB-1, SB-2, and SB-3 are about 29.2, 53.2, and 51.2 dB, respectively. The forward and backward cascaded SBS lines have been observed.
其他文献
针对现有的基于车道线宽度的测距方法在弯道时的测距误差,提出一种基于车道线斜率的弯道处车道线横向宽度的估计方法,并推导出基于车道线横向宽度的改进测距模型。随后在同心圆车道线模型下,对现有方法和所提方法的测距误差进行对比,所提方法的测距精度得到明显提高。当车道线曲率为0.01时,在真实距离为50m内,所提方法的测距误差小于3%;当曲率小于0.005时,在真实距离为100m内,所提方法的测距误差小于1%
简要介绍了高层大气被动探测技术的研究历史、现状和发展趋势。论述了高层大气被动探测技术的基本原理和方法,给出了高层大气被动探测的辐射源和气辉谱线、四强度探测法和临边探测模式。重点介绍了自行设计研制的风成像干涉仪的宽场、消色差、温度补偿理论以及工程设计和研制。采用风成像干涉仪进行了模拟高层大气探测实验,给出了高层大气风场、温度和压强的探测结果。该研究对空间探测、对地观测、军事、国家安全和国民经济建设均具有科学意义和应用价值。
we report on the generation of cascaded four-wave mixing (CFWM) in a photonic crystal fiber with a high peak power picosecond pulse pumping in the normal dispersion region and a weak continuous wave seeded. We also experimentally investigate the dependenc
Using cryogenic laser technology, it is now possible to design and demonstrate lasers that have concomitant high average and peak powers, with near-diffraction-limited beam quality. We refer to these new laser systems as HAPP lasers. In this paper, we rev
Considering that the collision caused by hidden terminal is particularly serious due to the narrow beams of optical devices, the multi-packet reception (MPR) is introduced to mitigate the collisions for IEEE 802.15.7 visible light communication (VLC) syst
Laser-induced breakdown spectroscopy (LIBS) is a useful tool for determination of elements in solids, liquids, and gases. For nanosecond LIBS (ns-LIBS), the plasma shielding effect limits its reproducibility, repeatability, and signal-to-noise ratios. Alt
在液漏检测领域,许多应用场合对成本敏感,而且又对空间分辨率有相对高的要求。但目前市场上很难选配到具备厘米级空间定位能力,而且价格低廉的液漏传感器,造成在这一特定需求空间内的应用真空。与当前流行的单一光源定位思路不同,文章介绍了一种多源定位的方法,可以实现低成本,短距离(10m)内较高的空间分辨率(5cm)。详细介绍了传感器检测与定位原理、加工方法,以及相关工艺参数的影响。
There is a need to develop a non-destructive and fast detection method for bruising of fruits because the injuries lower quality of fruits, which lead to economic loss. In this paper, we propose a method to detect the bruise on apple surface with hyperspe
针对荫罩式等离子体显示器屏板定位的特点,研究了基于计算机视觉的图像定位和基于衍射光栅的叠栅定位两种方法,利用这两种定位方法,建立了精密定位的复合控制系统,其中图像定位作为粗定位,光栅定位作为精定位。通过粗定位与精定位相结合的两段式复合定位,可保证在较大的工作行程范围内,实现显示器屏板的高速高精度定位,有效解决了定位精度、定位速度与信号捕捉范围三者之间的矛盾。系统采用的快速图像边缘检测技术、特征图形标识识别技术、精密光栅检测技术和精密驱动控制技术,确保了较高的定位精度及工作可靠性。实验结果表明,采用复合式精
A series of Tb3 doped NaY(MoO4)2are synthesized by a solid-state reaction at 550 °C for 4 h, and their luminescent properties are investigated. The phase formation is carried out with X-ray powder diffraction analysis, and