气体雪崩放电的单光子测量时间谱

用单光子时间分辨测量技术,研究了伴随有限正比、自猝灭流光(SQS)和G-M三种放电模式光发射的时间特性.结果表明:SQS相对于原初雪崩有一段时间延迟,约几到十几ns,流光的持续时间在10—30ns范围,且与猝灭气体浓度和工作电压有关;伴随G-M雪崩时的光脉冲持续时间长达约1μs,而有限正比只有4ns.本文还清楚地显示了三种模式雪崩放电过程特征的区别.     

MQW-LDA泵浦Nd:YLF激光器调Q的动力学过程及双机制作用

本文报道了国产多量子阱半导体激光列阵(MQW-LDA)泵浦Nd:YLF调Q脉冲脉宽.峰值功率与输出耦合率、泵浦速率、调制深度及延迟时间之间关系的实验,得到稳定的(起伏<1%)调Q脉冲输出,脉冲能量为0.8μJ,FWHM为70ns,脉冲重复率为100Hz,光-光效率2.5%;利用增益开关和Q开关双机制作用,压窄了调Q脉宽,提高了输出功率.用速率方程理论对过程计算,与实验结果较符合.     

激光二极管触发光导开关实验研究

介绍了利用大功率半导体激光二极管触发3 mm间隙GaAs光导开关、产生非线性电脉冲输出的实验,激光二极管输出功率为70 W,上升前沿约20 ns,脉冲半高宽（FWHM）约40 ns。随着开关两端偏置场强增加,输出电压也线性增加,当偏置场强超过一定阈值,增至约2.53 kV/mm时,经过一个较小的电压峰值和时间延迟后,输出电压急剧增加,产生雪崩现象。实验结果表明:GaAs开关非线性输出的产生与载流子聚集和碰撞电离有关,偏置电场的提高增加了开关芯片中载流子聚集数量,加剧了碰撞离化程度,从而使开关从线性模式进入雪崩模式。     

原子系统中远失谐脉冲光束对的群速度操控

基于远失谐的四波混频过程, 在实验上得到了放大的探针光脉冲和产生的共轭光脉冲的同时慢光传输, 并通过改变抽运光和探针光之间的双光子失谐实现了群速度的同时操控. 首先在连续光模式下, 研究了入射探针光和新产生共轭光的增益与单光子失谐之间的变化关系. 随着单光子失谐在一定范围内加大, 探针光和共轭光的增益均表现出先增加后减小的变化趋势. 在具有增益特性的基础上, 分别采用6 μs和365 ns探针光脉冲, 研究了慢光的延迟时间和双光子失谐的关系. 对6 μs的探针光, 得到探针和共轭光脉冲的最大延迟分别为2.1 μs 和1.9 μs, 对应的群速度分别约为0.000119 c和0.000132 c, 相应延迟比分别为0.35和0.32. 对365 ns探针光, 探针和共轭光脉冲的最大延迟分别为756 ns和670 ns, 对应的群速度分别约为0.00033 c和0.00037 c, 相应延迟比提高到2.07和1.83.     

Yb :YAG晶体的闪烁特性

通过不同Yb³⁺掺杂浓度(5%~30%,原子数分数)的Yb:YAG晶体的阴极射线发光谱、衰减时间、光输出及其温度依赖关系的测量,研究了Yb:YAG晶体的闪烁性能.不同Yb³⁺掺杂浓度的Yb:YAG晶体具有不同的光输出和猝灭温度,光输出随Yb³⁺掺杂浓度的增大而降低,猝灭温度则随掺杂浓度的增大而升高.室温下Yb:YAG晶体的发光衰减时间较短,均小于50ns.Yb³⁺掺杂浓度为5%的Yb:YAG晶体具有较高的光输出和较低的猝灭温度.     

用时分选位光谱技术研究高浓度掺钕磷玻璃的能量转移和扩散

本文用激光选择激发时间分辨光谱技术,研究了高Nd~(3+)浓度的磷酸盐玻璃的浓度猝灭和离子间激发能量的扩散和转移.结果表明这种材料具有弱的浓度猝灭,猝灭速率与X成正比.激光选择激发时间分辨光谱表明在No=4.2×10~(21)cm~(-3)的NP-1玻璃中,Nd~(3+)离子处于各种不同的局域配位场中,这些离子间通过偶极-偶极相互作用产生激发能量的转移和扩散.在77～150K的温度范围内,转移过程涉及δ=330cm~(-1)的热激活能量,并通过实验数据和理论的拟合估计了几种有关的能量转移参数的大小.     

假根羽藻外周天线LHCⅡ寡聚体的瞬态吸收光谱(英文)

采用时间分辨瞬态吸收光谱技术研究了假根羽藻外周天线寡聚体的光保护机制.分别以667nm飞秒激光脉冲和白光脉冲作为泵浦光和探测光,探测光与泵浦光之间的延时范围和准确度分别为340ps和134fs.实验结果表明在泵浦光激发之后外周天线对探测光的吸收是动态变化的.对瞬态吸收光谱进行多指数拟合,并结合外周天线的荧光发射谱和激发谱进行分析,结果表明:500~600nm的瞬态吸收谱主要来源于类胡萝卜素分子,外周天线寡聚体至少包含四种具有光保护作用的类胡萝卜素分子,对应的S0→Sn跃迁光谱为511nm和554nm,522nm和541nm,530nm和563nm(对应管藻黄素),536nm和575nm;类胡萝卜素分子以两种方式参与到光保护过程中:一种是直接方式,在几皮秒范围内猝灭叶绿素三重态;另一种是间接方式,在几百皮秒范围内猝灭从叶绿素分子获得能量的单线态氧.     

光子晶体光纤中受激布里渊散射慢光研究

基于受激布里渊散射的慢光在全光通信中具有重要的应用前景。传统的光纤作为慢光介质,具有较低的延迟效率,对光纤长度和抽运功率要求较高,而高非线性光子晶体光纤作为慢光介质应用于慢光系统,可以提高系统的延迟效率。实验选用一段70m长的高非线性光子晶体光纤作为慢光介质,在抽运功率101mW情况下,50ns脉冲信号获得了33dB的布里渊增益,脉冲延迟了30ns,延迟效率达到了0.0046ns/(mW.m),是普通单模光纤的13.7倍。该光纤应用于受激布里渊散射慢光系统可以有效缩短光纤长度和降低对抽运功率的要求,具有潜在的应用前景。     

基于光纤四波混频波长转换和色散的慢光实验研究

对基于光纤四波混频（FWM）波长转换和色散的慢光实现进行了详细和系统的实验研究.首先,实验测定了高非线性光纤中FWM带宽约为40 nm,从而确定了慢光的可调谐带宽;接着,在普通单模光纤和色散补偿光纤（DCF）中针对500 MHz正弦信号和100 ps短脉冲信号分别实现了34和198 ns的脉冲延迟,在DCF中还实现了209 ns的脉冲提前.讨论了增大延迟量的方法,指出随着宽带FWM波长转换的实现和大色散光纤的应用有望获得微秒量级的大延迟量,从而为高性能光纤延迟线和全光缓存器等应用提供支持. 关键词： 慢光 四波混频 色散     

聚四氟乙烯中正电子湮没寿命谱中等寿命成份湮没过程性质研究

用时间选择谱仪-磁猝灭测量方法并经适当数据处理,研究了聚四氟乙烯高聚物中正电子湮没寿命谱中等成份(～1ns)的湮没过程性质.确定其为自旋三重态正电子素即o-Ps的猝灭.     

Control of light pulse propagation with only a few cold atoms in a high-finesse microcavity

Propagation of a light pulse through a high-Q optical microcavity containing a few cold atoms (N<10) in its cavity mode is investigated experimentally. With less than ten cold rubidium atoms launched into an optical microcavity, up to 170 ns propagation lead time ("superluminal"), and 440 ns propagation delay time (subluminal) are observed. Comparison of the experimental data with numerical simulations as well as future experiments are discussed.     

Impact of interferometer delay time on the performance of ODSB-SC RoF system with wavelength interleaving

In this paper, we investigate the impact of interferometer delay time in a 5 Gb/s optical double sideband-suppressed carrier (ODSB-SC) RoF system transmitting two wavelength interleaved radio frequency (RF) signals at 10 and 15 GHz over an optical fiber. Here, an optical Mach–Zehnder modulator is used for both optical carrier suppression and signal modulation. At the receiver, delay interferometer is used for the separation of RF frequency signals. We analyze the performance of the RoF system by varying the value of delay time of interferometer from 0.02 to 0.14 ns. The result shows that the RoF system performance is optimum for the time delay of 0.1 ns. Further, the optical spectrums, RF spectrums and eye diagrams of two interleaved RF signals have been compared.     

InGaAs单光子探测器传感检测与淬灭方式

针对InGaAs单光子雪崩光电二极管(SPAD)的光电感应特性,研究了基于门控主动式淬灭的SPAD动态偏置控制和电路实现的策略.采用门控主动淬灭控制可降低淬灭时间,有效抑制暗计数和后脉冲效应.接口感应检测电路采用标准互补金属氧化物半导体(CMOS)工艺进行制造,而SPAD则采用非标准CMOS工艺.利用铟柱互连混合封装工艺实现SPAD与感应接口电路的协同工作.在低温-30?C的条件下,实现了SPAD光触发雪崩电流信号的提取和快速淬灭.研究了感应电阻和临界检测电压对传感检测电性能的影响,并采用简单电路结构实现状态检测,实测得到的SPAD恢复时间、传输延时分别为575,563 ps,淬灭时间为1.88 ns,满足纳秒级精度传感检测应用的需要.     

Investigation on microwave photonic filter group delay performance

Investigation on the group delay performance of microwave photonic filters is presented. Analysis and simulation results show symmetrical distribution on the delayed optical signals in the impulse response is required to obtain a constant group delay performance. Experimental results for both symmetrical and asymmetrical tap distribution microwave photonic notch filters are presented showing the group delay response with ?25 ps and around 1 ns ripples, respectively.     

新型超快速三角波脉冲电路的研究

本文讨论了一种新型三角波脉冲发生器,此脉冲发生器是由雪崩晶体管作为开关器件,产生出的三角波脉冲半宽度为3.5ns,上升时间最快达2ns,幅值为±1300V,电路的延迟时间为8.3us。     

Investigation on performance of all optical buffer with large dynamical delay time based on cascaded double loop optical buffers

Optical buffers are critical for optical signal processing in future optical packet-switched networks. In this paper, a theoretical study as well as an experimental demonstration on a new optical buffer with large dynamical delay time is carried out based on cascaded double loop optical buffers (DLOBs). It is found that pulse distortion can be restrained by a negative optical control mode when the optical packet is in the loop. Noise analysis indicates that it is feasible to realise a large variable delay range by cascaded DLOBs. These conclusions are validated by the experiment system with 4-stage cascaded DLOBs. Both the theoretical simulations and the experimental results indicate that a large delay range of 1-9999 times the basic delay unit and a fine granularity of 25 ns can be achieved by the cascaded DLOBs. The performance of the cascaded DLOBs is suitable for the all optical networks.     

Characterization of a 10-MHz quadrant APD for measuring frequency oscillations and tip displacements of microcantilevers

The room-temperature response of a 10-MHz quadrant avalanche photodiode (APD) is investigated for detection of high frequency oscillations and tip displacements of fabricated microcantilevers. Currently, no quadrant detectors with a response bandwidth in the megahertz range are available, and oscillations on the order of a few microseconds cannot be resolved. A comparison is made between optical and opto-mechanical measurements to characterize this detector by investigating the frequency response and signal-to-noise (SNR) of pulsed laser signals up to 10?MHz and reflected laser signals from freely vibrating microcantilevers up to 1.64?MHz. The power level of the minimum detectable signal incident on the APD is found to be 28.2?±?5.0?nW for optical measurements and 1.0???W?±?5.0?nW for opto-mechanical measurements.     

Optoelectronic delay-time controller for laser pulses

A dc-voltage-controlled optoelectronic delay line for continuous tuning of the relative delay time of an optical pulse train generated from a gain-switched laser diode is demonstrated. A maximum tunable range delay time of 3.9 ns ( approximately 2 periods) for optical pulses at a 500-MHz repetition rate is reported, which corresponds to a phase shift of as much as 4pi. The tuning responsivity and resolution of the current apparatus are 0.54 ps/mV and <0.2 ps, respectively. The measured timing fluctuation and long-term drift at any delay time are 0.13 ps and 20 fs/min, respectively. This scheme further permits the simultaneous phase tracking of the laser pulse train to unknown signals generated from the device under test.     

Test of BESⅢ RPC in the avalanche mode

The installation of the BESⅢ RPC system has been completed.Cosmic ray test results show that they perform very well in streamer mode and meet the BESⅢ requirements.We have tested several RPCs in the avalanche mode with the addition of extra SF6 in the gas mixture.We find an efficiency plateau that reaches～95%.and a time resolution of 1.8 ns.This demonstrates that the BESⅢ-type RPC can work in the avalanche mode as well.