注入电流对绿光高压LED光电特性的影响

设计并制备了12 V 的GaN基绿光高压发光二极管（LED）,并对其进行了变电流测试。研究了绿光高压LED的正向电压、峰值波长、光功率以及光效等重要参数随注入电流的变化关系,电流变化范围为3~50 mA,测试温度为25 ℃。实验结果表明：电流对绿光高压LED的光电特性有很大影响。在驱动电流为20 mA时,对应电压为14 V。随着注入电流的增大,峰值波长蓝移了2 nm。随着电流的增大,光功率近似于线性增加。在注入电流从3 mA增大到20 mA的过程中,光效降低了约61%;在注入电流从20 mA增大到50 mA的过程中,光效降低了约39%。这说明高压LED在大电流驱动时,光效降低的幅度比较缓慢。上述结果对 GaN基绿光高压 LED 的改进优化具有一定的参考价值。     

测量熔融金属密度的浮子式光纤Bragg光栅传感器

密度可以解释熔融金属的性质和行为,密度的变化特征反映了熔融金属内部原子距离和配位数等的基本变化。研制了一种测量熔融金属密度的浮子式光纤Bragg光栅传感器,浸没在熔融金属中的浮子受浮力作用,通过传递杆、等臂杠杆及连杆,拉动等强度悬臂梁产生扰度变化,根据检测粘贴在等强度悬臂梁表面的光纤Bragg光栅中心波长移位值,测出浮力值,进而检测熔融金属密度。该传感器的理论灵敏度为0.115pm/(kg/m3),4次实验得到熔融金属的平均密度为7.574×103 kg/m3,略小于理论密度7.621×103kg/m3,相对误差为0.62,均方根误差为117.371kg/m3。     

Raman spectroscopy at different excitation wavelengths (1064, 785 and 532 nm) as a tool for diagnosis of colon cancer

Raman spectroscopy is structure sensitive non‐destructive method that allows observing the status of biological tissues with minimal impact. This method has a great potential in the diagnosis of various types of degenerative diseases including cancer damages. Near‐infrared Fourier transform (NIR‐FT)‐Raman (λ_ex ~1064 nm), NIR‐visible (Vis)‐Raman (λ_ex ~785 nm) and Vis‐Raman (λ_ex ~532 nm) spectra of normal and colorectal carcinoma colon tissue samples were recorded in macroscopic mode at 10–20 randomly chosen independent sites. In the cases of NIR‐Vis‐ and Vis‐Raman spectra, enhanced resonance effects were observed for tissue chromophores absorbing in the visible area. Evident spectral differences were noticed for Raman spectra of normal colon tissue samples in comparison with abnormal samples. The average Raman spectra of colon tissue samples were analysed by principal component analysis (PCA) to discriminate normal and abnormal tissues. PCA of combined dataset containing Raman intensities of chosen NIR‐FT, NIR‐Vis or Vis‐Raman bands led to discrimination of normal and abnormal colon tissue samples. Therefore, combination of these three Raman methods can be helpful for recognizing cancer lesions in colon for diagnostic purposes. Copyright © 2014 John Wiley & Sons, Ltd.     

MoS_2溶液的波长选择性光限幅效应研究

采用N,N-二甲基甲酰胺(DMF)和四氢呋喃(THF)为溶剂,用离散法制备二硫化钼(MoS2)悬浮溶液,并用开孔Z扫描方法研究其在可见和近红外区域的非线性光学特性.结果显示,在强激光照射下,MoS2(in THF)悬浮溶液在可见波段(530 nm)透过率增强为常光透过率的1.54倍,表现为饱和吸收;在近红外波段(790 nm)透过率减弱为常光透过率的0.6倍,表现为反饱和吸收,具有很好的波长选择性光限幅效应.而作为对比的MoS2(in DMF)悬浮溶液在全波段透过率降低,呈现反饱和吸收特性,波长选择性不明显.机理解释可能为饱和吸收和热效应导致的自衍射两种机制联合作用.     

间隔0.173nm的可调谐多波长布里渊掺铒光纤激光器

使用四端口环行器和可调谐滤波器,设计了一种间隔为双倍布里渊频移的多波长布里渊掺铒光纤激光器.该光纤激光器中使用的四端口环形器可以限制奇次阶斯托克斯光在腔内循环并耦合输出初始泵浦光和偶次阶斯托克斯光,而可调滤波器抑制环形腔所形成的自激振荡模,增加了激发多波长激光的功率,从而增加多波长输出个数及其调谐范围.在布里渊泵浦功率为8dBm、980nm泵浦功率为279mW时,实验获得波长间隔为0.173nm的6个波长的激光输出,输出激光的可调谐范围为28nm.     

Multi parameter optimization of Raman Fiber Amplifier using genetic algorithm for S band dense wavelength division multiplexed system

A simple genetic algorithm is implemented to perform multi parameter optimization of Raman Fiber Amplifier for 100 channel S band dense wavelength division multiplexed system at 25 GHz interval. A cost effective system using single Raman pump is investigated aiming at maximum average gain. The single counter propagating pump is optimized to frequency of 211.528 THz and 652.93 mW power level with optimum Raman fiber length of 44.064 Km. There is evidence to show that the optimum solution presents a small gain variation (less than 3 dB) over an effective bandwidth covering 197–199.475 THz. The optimized configuration enabled an adequate system performance in terms of acceptable Q-factor (19.52 dB) and BER (1.46 × 10⁻²¹).     

Novel shooting method with simple control strategy for fiber lasers

A novel shooting method with excellent simple control strategy is developed for solving the failure to convergence of the traditional shooting methods themselves in fiber lasers model. Compared with the published literature, the novel shooting method provides a clear physical understanding method for getting the threshold pump power and the exact results with given random functions in Yb³⁺-doped fiber lasers and Er³⁺-doped fiber lasers. Then, the results in Er³⁺-doped fiber lasers and Yb³⁺-doped fiber lasers demonstrate that the solutions using the novel shooting method has high accuracy of 10⁻⁸ W with several iteration steps, which have extended the applicable range of the end-pumped power even lower than 1 mW pump power. Furthermore, compared with 1480 nm pump for the threshold and slope efficiencies of the Er³⁺-doped fiber lasers, 978 nm fiber lasers can extend wider scope of application and be pump source in the coming future. Finally, the lower threshold and higher slope efficiency at 975 nm than those of 910 nm pump in Yb³⁺-doped fiber lasers, 975 nm pump laser provides for broad band excellent cladding pump source.     

Investigations on order and width of RZ super Gaussian pulse in different WDM systems at 40 Gb/s using dispersion compensating fibers

In optical wavelength division multiplexed (WDM) systems the dispersion management is a key issue. In optical systems a lot of research is going on to reduce dispersion by selecting proper dispersion compensating techniques and proper modulation format for input data. One way to reduce dispersion is by using dispersion compensating fibers in the WDM systems. This paper analyzes the use of RZ super Gaussian pulse inputs for different WDM systems i.e. for conventional, dense and ultra dense WDM systems employing dispersion compensating fibers. The pulse width and the order of the RZ super Gaussian pulse was varied to evaluate the performance at 40 Gb/s. The experiment showed that to get minimum BER, pulse width of 7.5 ps and 10 ps along with third-order RZ super Gaussian pulse were found suitable and recommended to be used.