Spectroscopy Application(光谱应用)研究综述
Spectroscopy Application 光谱应用 - Multimode fibers (MMFs) show great promise as miniature probes for sensing, imaging, and spectroscopy applications. [1] However the shape of CARS spectra is generally complex because of the combination of both resonant and non-resonant contributions, which limits the development of CARS microspectroscopy applications. [2] This property facilitates the potential of sources suitable for sensing and spectroscopy applications. [3] This approach provides comb multiplication with different line spacing and generation of dual-comb for spectroscopy applications. [4] The 128x1 linear array is perfectly suited for spectroscopy applications, particularly for advanced Raman techniques, thanks to on-chip time-gating and time-tagging capabilities. [5] Moreover, this coupling effect is useful for the improvement of Raman spectroscopy efficiency and its spectroscopy applications. [6] Potential energy surfaces fit with basis set expansions have been shown to provide accurate representations of electronic energies and have enabled a variety of high-accuracy dynamics, kinetics, and spectroscopy applications. [7] 7 A CW gyrotron is developed for the spectroscopy applications. [8] The proposed framework is suitable for high-performance lensless imaging systems for on-chip microscopy and spectroscopy applications. [9] 5 μm to 13 μm, which covers the molecular fingerprint region relevant for many spectroscopy applications. [10] The proposed design technique could be applicable in the field of laser and spectroscopy application. [11] 7 A CW gyrotron is developed for the spectroscopy applications. [12] Optoelectronic modulators that operate by the electrical tuning of plasmonic resonator structures have demonstrated fast (>MHz) manipulation of terahertz (THz) radiation for communications, imaging, and spectroscopy applications. [13] In the pulsed laser photoacoustic (PA) detection and spectroscopy applications, the fundamental frequency of the PA signal produced, and the sensor resonance frequency should be as close as possible to each other so that analyzes from the obtained signals can be performed effectively. [14] Technologies and industrials in imaging, security detection, and spectroscopy applications are still in great need of much higher output power THz source. [15] measurement time in spectroscopy applications. [16] The reflectance and photometric data collected and released here enable the use of these color standards for calibration of data from Mastcam-Z and other Mars-2020 rover instruments as well as provide key information for many other imaging and spectroscopy applications that require the calibration of data from multiple lighting or viewing geometries. [17] Superluminescent diodes (SLDs) with high power spectral density present an appealing low cost, small footprint and relatively simple alternative to supercontinuum sources for spectroscopy applications that do not require extremely broad optical spectra1. [18] Elastically bent single crystal Laue case diffraction crystals provide interesting new opportunities for imaging and spectroscopy applications. [19] In this paper, we review recent developments of swept-wavelength lasers based on GaSb type-I gain-chip technology, their key performance parameters for spectroscopy applications and provide experimental data on spectroscopic sensing of the key biomolecules both in synthetic solutions as well as whole blood. [20] Conclusions: FTIR biospectroscopy application in teratology is very challenging, but it has been accepted as a reliable technique; however, it is necessary to do more investigations. [21] SC generation in all-normal dispersion fibers can under certain requirements provide a highly coherent spectrum [2, 3], which is of key importance to a large range of imaging and spectroscopy applications. [22] These results prove versatility and viability of this new technological platform for integrated THz sensing and spectroscopy applications. [23] The longitudinal relaxation constants (T1 ) for the labeled acetyl and carboxyl carbonyls were approximately 30 seconds, supporting in vivo imaging and spectroscopy applications. [24] Since the quantum cascade laser (QCL) has become the dominant laser source in the mid-infrared portion of the electromagnetic spectrum, where fundamental absorption lines of many molecules lie, it is of great use particularly in spectroscopy applications. [25] Spoof surface plasmon polariton waveguides are perfect candidates to enable novel, miniaturized terahertz integrated systems, which will expedite the next-generation ultra-wideband communications, high-resolution imaging and spectroscopy applications. [26] Nano-antennas are used in optical data storage, near-field imaging, photovoltaics, sensing, and spectroscopy applications. [27] Gas-filled Hollow Core Photonic Cristal Fibres (HCPCF) or Photonic MicroCell (PMC) [1] has proven to offer an outstanding gas-cell for laser metrology and spectroscopy applications. [28]多模光纤 (MMF) 作为用于传感、成像和光谱应用的微型探针显示出巨大的前景。 [1] 然而,由于共振和非共振贡献的结合,CARS光谱的形状通常很复杂,这限制了CARS显微光谱应用的发展。 [2] 这一特性促进了适用于传感和光谱应用的源的潜力。 [3] 这种方法为光谱应用提供了具有不同线间距的梳状乘法和双梳状的生成。 [4] 由于片上时间门控和时间标记功能,128x1 线性阵列非常适合光谱应用,特别是高级拉曼技术。 [5] 此外,这种耦合效应有助于提高拉曼光谱效率及其光谱应用。 [6] 与基组展开相匹配的势能表面已被证明可以提供电子能量的准确表示,并已实现各种高精度动力学、动力学和光谱学应用。 [7] 7 为光谱应用开发了一个 CW 回旋管。 [8] 所提出的框架适用于片上显微镜和光谱应用的高性能无透镜成像系统。 [9] 5 μm 至 13 μm,涵盖与许多光谱应用相关的分子指纹区域。 [10] 所提出的设计技术可应用于激光和光谱应用领域。 [11] 7 为光谱应用开发了一个 CW 回旋管。 [12] 通过等离子体谐振器结构的电调谐操作的光电调制器已经证明了用于通信、成像和光谱应用的太赫兹 (THz) 辐射的快速 (>MHz) 操纵。 [13] 在脉冲激光光声 (PA) 检测和光谱应用中,产生的 PA 信号的基频和传感器谐振频率应尽可能接近,以便有效地对获得的信号进行分析。 [14] 成像、安全检测和光谱应用中的技术和工业仍然非常需要更高输出功率的太赫兹源。 [15] 光谱应用中的测量时间。 [16] 此处收集和发布的反射率和光度数据使这些颜色标准能够用于校准 Mastcam-Z 和其他 Mars-2020 漫游车仪器的数据,并为需要校准数据的许多其他成像和光谱应用提供关键信息来自多个照明或查看几何图形。 [17] 对于不需要极宽光谱的光谱应用,具有高功率光谱密度的超发光二极管 (SLD) 是一种有吸引力的低成本、小尺寸和相对简单的超连续谱源替代品。 [18] 弹性弯曲单晶劳厄案例衍射晶体为成像和光谱应用提供了有趣的新机会。 [19] 在本文中,我们回顾了基于 GaSb I 型增益芯片技术的扫频激光器的最新发展,它们在光谱应用中的关键性能参数,并提供了合成溶液和整个关键生物分子光谱传感的实验数据。血液。 [20] 结论: FTIR 生物光谱在畸形学中的应用非常具有挑战性,但已被认为是一种可靠的技术;但是,有必要进行更多的调查。 [21] 在某些要求下,全正常色散光纤中的 SC 生成可以提供高度相干的光谱 [2, 3],这对于大范围的成像和光谱应用至关重要。 [22] 这些结果证明了这种用于集成太赫兹传感和光谱应用的新技术平台的多功能性和可行性。 [23] 标记的乙酰基和羧基羰基的纵向弛豫常数 (T1) 约为 30 秒,支持体内成像和光谱学应用。 [24] 由于量子级联激光器 (QCL) 已成为电磁光谱中红外部分的主要激光源,许多分子的基本吸收线位于该部分,因此在光谱学应用中特别有用。 [25] 欺骗表面等离子体激元波导是实现新型、小型化太赫兹集成系统的完美候选者,这将加速下一代超宽带通信、高分辨率成像和光谱学应用。 [26] 纳米天线用于光学数据存储、近场成像、光伏、传感和光谱应用。 [27] 充气空心光子晶体光纤 (HCPCF) 或光子微电池 (PMC) [1] 已被证明可以为激光计量和光谱应用提供出色的气体电池。 [28]
Raman Spectroscopy Application 拉曼光谱应用
Although CNN models often show great success in classification, it has always been challenging to visualize the CNN features in these models, which has never been achieved in the Raman spectroscopy application in cancer diagnosis. [1] In this study, a custom system that is capable of switching between two spatially offset Raman excitation modes, namely inverse (iSORS, ring) and diffuse (dSORS, enlarged flat-top circle), were compared at the same power for depth-probing Raman spectroscopy applications. [2] Advanced techniques with potential to enhance the relevance of Raman spectroscopy application in the carbon nanotube field are also presented. [3] DC sputtered bismuth thin film was fabricated for Surface Enhanced Raman Spectroscopy applications as an alternative to the existing platforms. [4] Herein, a comparative analysis of these biofluids, with a novel assessment of urine, was conducted by Raman spectroscopy application in a large patient cohort. [5] With a noisy environment caused by fluorescence and additive white noise as well as complicated spectra fingerprints, the identification of complex mixture materials remains a significant challenge in Raman spectroscopy application. [6] In this article, the influence of the medium refractive index on optical properties of gold nanorods (GNRs) and their surface enhanced Raman spectroscopy application were studied. [7] As such, our framework could enable a host of higher-throughput spontaneous Raman spectroscopy applications across a diverse range of fields. [8] This work may offer a novel and practical method for Raman spectroscopy application in trace analysis. [9] This review is a summary of the Raman spectroscopy applications made over the last 10 years in the field of cellulose and lignocellulose materials. [10] This present review briefly evaluates Raman spectroscopy applications in the quality and safety analysis of oil products in the latest decade. [11]尽管 CNN 模型通常在分类方面取得巨大成功,但在这些模型中可视化 CNN 特征一直具有挑战性,这在拉曼光谱在癌症诊断中的应用中从未实现过。 [1] 在这项研究中,能够在两种空间偏移拉曼激发模式之间切换的定制系统,即逆(iSORS,环)和漫射(dSORS,扩大平顶圆),在相同功率下对深度探测拉曼进行了比较光谱应用。 [2] 还介绍了具有增强拉曼光谱在碳纳米管领域应用相关性的潜力的先进技术。 [3] 直流溅射铋薄膜被制造用于表面增强拉曼光谱应用,作为现有平台的替代品。 [4] 在此,通过拉曼光谱应用在大型患者队列中对这些生物流体进行了比较分析,并对尿液进行了新的评估。 [5] 由于荧光和加性白噪声以及复杂的光谱指纹引起的嘈杂环境,复杂混合物材料的识别仍然是拉曼光谱应用中的一项重大挑战。 [6] 本文研究了介质折射率对金纳米棒 (GNR) 光学性质的影响及其表面增强拉曼光谱的应用。 [7] 因此,我们的框架可以在不同领域实现大量高通量自发拉曼光谱应用。 [8] 这项工作可能为拉曼光谱在痕量分析中的应用提供一种新颖实用的方法。 [9] 这篇综述总结了过去 10 年在纤维素和木质纤维素材料领域的拉曼光谱应用。 [10] 本综述简要评估了近十年来拉曼光谱在石油产品质量和安全分析中的应用。 [11]
Infrared Spectroscopy Application 红外光谱应用
The success of infrared spectroscopy applications for quantitative analysis of phytochemicals and adulterants content in plant-based medicine and supplement can happen by several factors. [1] Significance: Despite its advantages in terms of safety, low cost, and portability, functional near-infrared spectroscopy applications can be challenging due to substantial signal contamination from hemodynamics in the extracerebral layer (ECL). [2] The supercontinuum generation based on self-frequency shift (SFS) of Raman solitons in various optical fibres is a technology to provide promising spectra for infrared spectroscopy applications. [3] Promoting artificial and functional metamaterial designs with large electromagnetic near-field enhancement especially over throughout multiband spectral range can provide critical contributions for infrared spectroscopy applications. [4] In near-infrared spectroscopy applications, the original spectra often contain redundant information, which will seriously affect the performance of chemometric models. [5] Preprocessing is important for near infrared spectroscopy applications as it reduces noise and improves prediction accuracy of models. [6] A new type of photoelectric detector based on a standard quartz crystal tuning fork (QCTF) with resonant frequency of ∼32 kHz is developed for infrared spectroscopy applications. [7]红外光谱应用在植物性药物和补充剂中植物化学物质和掺杂物含量的定量分析中的成功可能与几个因素有关。 [1] 意义:尽管在安全性、低成本和便携性方面具有优势,但由于脑外层 (ECL) 中血流动力学的大量信号污染,功能性近红外光谱应用可能具有挑战性。 [2] 基于各种光纤中拉曼孤子的自频移(SFS)的超连续谱生成是一种为红外光谱应用提供有前景的光谱的技术。 [3] 促进具有大电磁近场增强的人工和功能超材料设计,特别是在整个多波段光谱范围内,可以为红外光谱应用提供关键贡献。 [4] 在近红外光谱应用中,原始光谱往往包含冗余信息,这将严重影响化学计量模型的性能。 [5] 预处理对于近红外光谱应用很重要,因为它可以降低噪声并提高模型的预测精度。 [6] nan [7]
Ray Spectroscopy Application
Bulk scintillators that are with high density, low cost, and fine pulse-height energy spectral resolution, and are non-hygroscopic and user friendly, are desired for high-energy gamma-ray spectroscopy application. [1] X-ray spectroscopy applications are extended to include the time-resolved study of reactions caused by temperature jumps in aqueous solutions. [2] Eu2+-doped mixed halide scintillators, CsSrBrI2, CsCaBrI2 and CsSrClBr2 were studied for gamma-ray spectroscopy applications. [3] We present here a 16-channels ASIC for SiPMs readout in gamma-ray spectroscopy applications. [4]高能伽马能谱应用需要具有高密度、低成本和精细脉冲高度能谱分辨率、不吸湿和用户友好的体闪烁体。 [1] X 射线光谱学应用扩展到包括对水溶液中温度跳跃引起的反应的时间分辨研究。 [2] 研究了 Eu2+ 掺杂的混合卤化物闪烁体、CsSrBrI2、CsCaBrI2 和 CsSrClBr2 用于伽马射线光谱学应用。 [3] 我们在这里展示了一个 16 通道 ASIC,用于在伽马射线光谱应用中读取 SiPM。 [4]
Molecular Spectroscopy Application 分子光谱应用
Such a few-cycle fiber laser could be an ideal candidate source for short-wavelength mid-infrared frequency metrology and molecular spectroscopy applications. [1] These results demonstrate the tuning finesse and phase-noise characteristics of the integrated circuit embedded phase lock loop used to generate coherent mm-wave radiation are sufficient for high-precision molecular spectroscopy applications. [2] Such results demonstrate that such sources are suitable for compact, chip-integrated molecular spectroscopy applications. [3] The extension of the available spectral range covered by quantum cascade lasers (QCL) would allow one to address new molecular spectroscopy applications, in particular in the long wavelength domain of the mid-infrared. [4]这种少周期光纤激光器可能是短波长中红外频率计量和分子光谱应用的理想候选光源。 [1] 这些结果表明,用于产生相干毫米波辐射的集成电路嵌入式锁相环的调谐精度和相位噪声特性足以满足高精度分子光谱应用。 [2] 这样的结果表明,这样的源适用于紧凑的、芯片集成的分子光谱学应用。 [3] nan [4]