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1.
报道了一种新型的专用于光学相干层析系统的输出光谱为准高斯型的宽带超荧光光纤光源.该光源采用掺饵光纤作为增益介质.其关键技术是在抽运源的输出端增加了光耦合器,并在光源输出端插入多级长周期光纤光栅对铒离子的自发光谱进行调制和整形;同时采用光控器和温控器来控制抽运源的输出以提高光源输出功率的稳定性.该光源的中心波长为1.57μm,输出光谱的3dB带宽大于75nm,输出功率为27mW.实验结果表明,该光源输出光谱的自相关函数的旁瓣峰被大大削弱,可以满足光学相干层析系统的应用.
关键词:
光学相干层析术
超荧光光纤光源
长周期光纤光栅
光耦合器 相似文献
2.
超连续谱光源在很多领域具有广泛而重要的应用,过去40多年一直是国际研究热点之一。但一方面由于普通双包层光纤与光子晶体光纤模场不匹配会导致较高的熔接损耗和耦合损耗;另一方面受高质量超快光纤脉冲激光器输出平均功率的限制,目前超连续谱光源的最高输出平均功率只有50 W。报道了一种全光纤结构的超连续谱光源,输出平均功率为 70 W。由于整个装置采用一种新的超连续谱形成机制,较好解决了普通双包层光纤与光子晶体光纤由于模场不匹配导致的较高熔接损耗和耦合损耗;降低了对脉冲泵浦源光谱质量的要求。 相似文献
3.
光子晶体光纤中超连续谱产生的理论与实验研究 总被引:5,自引:3,他引:2
研究了光子晶体光纤中超连续激光光源的产生机理.利用非线性偏振旋转技术产生的中心波长为1 556.0 nm的飞秒光脉冲作为泵浦光源,在69 m长的高非线性光子晶体光纤中,得到了20 dB带宽约为140 nm的超连续谱;采用实验和数值模拟方法,研究了不同泵浦功率下超连续谱形成的过程.结果表明,在不同的泵浦功率下,超连续谱的形成机理不同,在各种非线性效应的共同作用下,泵浦光脉冲的峰值功率越高,得到超连续谱的带宽越宽,实验与数值模拟结果一致.另外,要想获得平坦的宽带超连续谱,必须选择合适的光纤长度. 相似文献
4.
双光子激发荧光(two-photon excited fluorescence, TPEF)显微是一种非线性光学显微技术, 具有高的时间分辨率和空间分辨率、高的信噪比和固有的三维层析分辨能力等优点. 传统的TPEF显微一般采用波长可调谐的超短脉冲激光器作为光源. 在实际应用中, 利用TPEF显微技术研究含有多种荧光团或未知成分的待测样品, 往往需要多次改变激发光的波长以获得对各种荧光团的最佳激发. 为了同时获取不同荧光团的荧光信号, 利用超连续谱激光光源实现了多色TPEF显微成像, 实验中无需调节波长, 能够同时获得具有两种不同发射波长的荧光标记的铃兰根茎切片样品的TPEF图像. 实验结果表明, 与传统的TPEF显微相比, 该方法能够同时获取含有多种荧光团的待测样品的高对比度TPEF图像, 具有系统结构简单、操作简便、信息量大等优点, 在生物医学和材料科学等领域具有广阔的应用前景. 相似文献
5.
采用脉冲重复频率可调的高功率皮秒脉冲光纤激 光抽运光子晶体光纤产生了平均输出功率为101 W的全 光纤化超连续谱. 通过一系列的对比实验, 详细研究了抽运激光的脉冲重复频率以及光子晶体光纤的长度对超连续谱产生的影响. 最后, 对如何实现更高平均功率的超连续谱输出进行相关的分析和讨论. 相关研究结果可以为进一步发展基于光子晶体光纤的高功率超连续谱光源提供一定的参考.
关键词:
光子晶体光纤
非线性光纤光学
超连续谱产生 相似文献
6.
7.
超连续谱的相干性直接影响到很多光学测量器件的分辨率及准确性, 如何获得高相干度的超连续谱是当前非线性光学领域的研究热点之一. 本文首先分析超连续谱产生的机理, 认为调制不稳现象是降低超连续谱相干性的重要因素. 因此抑制调制不稳定性, 利用其他非线性效应(如自相位调制)是得到高相干性超连续谱的有效方法. 最后设计了一种全波段正常色散光子晶体光纤,仿真结果表明, 在脉宽400 fs无啁啾高斯脉冲抽运, 50 cm长该光子晶体光纤的条件下, 产生的超连续谱具有在相对功率大于-80 dB的全波段高度相干的特性. 相似文献
8.
实现了一种适合于相干拉曼光谱探测的宽带超连续谱光源的方法,使用1 064nm飞秒激光泵浦全正色散光子晶体光纤,并用光栅对对脉冲进行压缩,最终获得了脉宽178fs,频谱范围处于760~1 300nm的超连续谱光源.对超连续谱脉冲的时间频谱结构进行了分析,未经过压缩的超连续谱的脉冲宽度达到1.43ps,不同频率的成分之间延迟较大,但基本上呈线性平滑分布,因此可以使用光栅对进行色散补偿;此外,提高泵浦光的功率虽然能够增加光谱展宽,但会引入高阶色散,并不利于色散补偿.最后,使用该超连续谱搭建的三色相干反斯托克斯拉曼散射光谱探测系统,测量了苯甲腈溶液的相干反斯托克斯拉曼散射信号光谱,同时获得了3 200cm~(-1)范围内的所有振动模式,验证了该超连续光谱的性能. 相似文献
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10.
光子晶体光纤作为光学非线性良好介质,对超连续谱产生具有重要作用。深紫外超连续谱光源在许多应用中有急切的需求,然而由于实验条件和光纤参数等方面的影响,利用高非线性光子晶体光纤产生深紫外(<280 nm)超连续谱的报道较少。通过理论和实验研究了高非线性光子晶体光纤在深紫外区的频率变换,并分析其产生的物理机理。使用钛宝石飞秒激光器将实验室自制的光子晶体光纤在反常色散区泵浦,研究了不同泵浦功率和泵浦波长对深紫外区超连续谱的影响,结果表明:泵浦波长固定为860 nm时,深紫外频率光谱展宽范围随泵浦功率的增加而逐渐展宽;泵浦功率固定为0.4 W时,泵浦波长的增加不仅展宽超连续谱范围而且极大的提高了深紫外区光谱的转换效率。当泵浦波长为870 nm,泵浦功率为0.4 W,实验所用光子晶体光纤长度为1.45 m,零色散波长为825 nm时,光子与色散波的交叉相位调制使深紫外基模超连续谱扩展到最短波长212 nm。 相似文献
11.
Auksorius E Boruah BR Dunsby C Lanigan PM Kennedy G Neil MA French PM 《Optics letters》2008,33(2):113-115
We demonstrate stimulated emission depletion (STED) microscopy implemented in a laser scanning confocal microscope using excitation light derived from supercontinuum generation in a microstructured optical fiber. Images with resolution improvement beyond the far-field diffraction limit in both the lateral and axial directions were acquired by scanning overlapped excitation and depletion beams in two dimensions using the flying spot scanner of a commercially available laser scanning confocal microscope. The spatial properties of the depletion beam were controlled holographically using a programmable spatial light modulator, which can rapidly change between different STED imaging modes and also compensate for aberrations in the optical path. STED fluorescence lifetime imaging microscopy is demonstrated through the use of time-correlated single photon counting. 相似文献
12.
We report on the development of a 2.5 microm core photonic crystal fiber with a substantially reduced water-peak loss around 1.38 microm, which allows extended Raman-soliton supercontinuum generation up to 1.55 microm with a cw ytterbium fiber laser pump source. The resulting broadband, high-spectral-power-density, low-coherence light source can be employed for advanced, submicrometer resolution optical coherence tomography. 相似文献
13.
The schlieren method of refractive flow visualization traditionally requires non-coherent illumination in order to avoid problems with coherent artifact noise and binary cutoff by the knife-edge. Related shadowgraph and Wollaston-prism schlieren-interferometer methods, however, work well with light sources of high spatial coherence. Here we apply a supercontinuum laser as a light source for these methods, providing spatially coherent white-light illumination. Excellent results are obtained with shadowgraphy and schlieren-interferometry, but the schlieren method still requires a modified cutoff in place of the traditional knife-edge for laser illumination. Once they become widely available, supercontinuum lasers will find frequent use in these optical instruments, especially the schlieren-interferometer. 相似文献
14.
本文实验研究了飞秒脉冲在不同零色散点光子晶体光纤中传输时产生超连续谱的现象。首先,我们通过非线性薛定谔方程理论计算了激光脉冲分别在正、负色散光子晶体光纤中传输时产生的超连续谱;计算结果表明在正色散光子晶体光纤产生的超连续谱远远大于在负色散中产生的超连续谱。其次,在实验上采用零色散点分别为800 nm、1 060 nm和2 000 nm的光子晶体光纤,将脉宽为130 fs,中心波长800 nm,脉冲重复频率为80 MHz的脉冲输入这些光纤中产生超连续谱并研究其特性,实验结果表明光子晶体光纤的零色散点越小,在其中产生的超连续谱越宽越平坦。同时产生的超连续谱也与激光脉冲的能量和中心波长相关。 相似文献
15.
David T. D. Childs Richard A. Hogg Dmitry G. Revin Ihtseham Ur Rehman John W. Cockburn 《应用光谱学评论》2013,48(10):822-839
AbstractInterest in mid-infrared spectroscopy instrumentation beyond classical FTIR using a thermal light source has increased dramatically in recent years. Synchrotron, supercontinuum, and external-cavity quantum cascade laser light sources are emerging as viable alternatives to the traditional thermal black-body emitter (Globar), especially for remote interrogation of samples (“stand-off” detection) and for hyperspectral imaging at diffraction-limited spatial resolution (“microspectroscopy”). It is thus timely to rigorously consider the relative merits of these different light sources for such applications. We study the theoretical maximum achievable signal-to-noise ratio (SNR) of FTIR using synchrotron or supercontinuum light vs. that of a tunable quantum cascade laser, by reinterpreting an important result that is well known in near-infrared optical coherence tomography imaging. We rigorously show that mid-infrared spectra can be acquired up to 1000 times faster—using the same detected light intensity, the same detector noise level, and without loss of SNR—using the tunable quantum cascade laser as compared with the FTIR approach using synchrotron or supercontinuum light. We experimentally demonstrate the effect using a novel, rapidly tunable quantum cascade laser that acquires spectra at rates of up to 400 per second. We also estimate the maximum potential spectral acquisition rate of our prototype system to be 100,000 per second. 相似文献
16.
报道了利用零色散在780nm处的光子晶体光纤与纳焦耳量级的飞秒激光脉冲相互作用的实验结果.实验使用35fs,中心波长810—840nm,单脉冲能量可达14nJ的飞秒激光光源获得了超过一个倍频程的平坦超连续光谱(500—1100nm).在不同功率、不同中心波长、不同啁啾和有无直流成分的多种飞秒脉冲激光的条件下,研究了超连续光谱的产生情况.并对一系列现象进行了对比,分析了超连续光谱产生的机制.
关键词:
光子晶体光纤
飞秒脉冲激光
超连续光谱 相似文献
17.
Supercontinuum (SC) light source is designed using high pressure Xe-filled hollow core Kagome-lattice photonic crystal fiber. Using finite element method with perfectly matched layer, SC spectra in normal chromatic dispersion region have been generated using picosecond optical pulses from relatively less expensive laser sources. 相似文献
18.
Joly NY Nold J Chang W Hölzer P Nazarkin A Wong GK Biancalana F Russell PS 《Physical review letters》2011,106(20):203901
We report on the spectral broadening of ~1 μJ 30 fs pulses propagating in an Ar-filled hollow-core photonic crystal fiber. In contrast with supercontinuum generation in a solid-core photonic crystal fiber, the absence of Raman and unique pressure-controlled dispersion results in efficient emission of dispersive waves in the deep-UV region. The UV light emerges in the single-lobed fundamental mode and is tunable from 200 to 320 nm by varying the pulse energy and gas pressure. The setup is extremely simple, involving <1 m of a gas-filled photonic crystal fiber, and the UV signal is stable and bright, with experimental IR to deep-UV conversion efficiencies as high as 8%. The source is of immediate interest in applications demanding high spatial coherence, such as laser lithography or confocal microscopy. 相似文献
19.
Andr Müller Sebastian Marschall Ole Bjarlin Jensen Jrg Fricke Hans Wenzel Bernd Sumpf Peter E. Andersen 《Laser \u0026amp; Photonics Reviews》2013,7(5):605-627
Diode lasers are by far the most efficient lasers currently available. With the ever‐continuing improvement in diode laser technology, this type of laser has become increasingly attractive for a wide range of biomedical applications. Compared to the characteristics of competing laser systems, diode lasers simultaneously offer tunability, high‐power emission and compact size at fairly low cost. Therefore, diode lasers are increasingly preferred in important applications, such as photocoagulation, optical coherence tomography, diffuse optical imaging, fluorescence lifetime imaging, and terahertz imaging. This review provides an overview of the latest development of diode laser technology and systems and their use within selected biomedical applications. 670 nm external cavity diode laser for Raman spectroscopy built on a 13 × 4 mm2 microbench (Copyright FBH/Schurian.com ). 相似文献
20.
Supercontinuum generation is dependent on the polarization state of the incident laser. The polarization of the generated supercontinuum is the same as that of the incident laser. The magnitude of the generated supercontinuum depends on the polarization of the incident laser and increases as the polarization changes from circular to linear, irrespective of the nature of the sample, be it isotropic, anisotropic, or chiral. In all samples, the polarization dependence indicates a preference for the linear component of the incident laser beam. The anisotropic sample shows an additional difference in the generated supercontinuum for the two perpendicular directions of the incident laser polarization. PACS 42.25.Ja; 42.65.Ky 相似文献