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Journal articles on the topic 'Light angular scattering spectroscopy'

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Published: 4 June 2021
Last updated: 2 February 2022

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1

Alexandrov, Sergey A., Timothy R. Hillman, and David D. Sampson. "Spatially resolved Fourier holographic light scattering angular spectroscopy." Optics Letters 30, no. 24 (December 15, 2005): 3305. http://dx.doi.org/10.1364/ol.30.003305.

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2

Kim, Kyoohyun, and YongKeun Park. "Fourier transform light scattering angular spectroscopy using digital inline holography." Optics Letters 37, no. 19 (September 28, 2012): 4161. http://dx.doi.org/10.1364/ol.37.004161.

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3

Ceolato, Romain, Matthew J. Berg, and Nicolas Riviere. "Spectral and angular light-scattering from silica fractal aggregates." Journal of Quantitative Spectroscopy and Radiative Transfer 131 (December 2013): 160–65. http://dx.doi.org/10.1016/j.jqsrt.2013.01.007.

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4

Hillman, Timothy R., Sergey A. Alexandrov, Thomas Gutzler, and David D. Sampson. "Microscopic particle discrimination using spatially-resolved Fourier-holographic light scattering angular spectroscopy." Optics Express 14, no. 23 (November 13, 2006): 11088. http://dx.doi.org/10.1364/oe.14.011088.

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5

Ni, Jincheng, Shunli Liu, Dong Wu, Zhaoxin Lao, Zhongyu Wang, Kun Huang, Shengyun Ji, et al. "Gigantic vortical differential scattering as a monochromatic probe for multiscale chiral structures." Proceedings of the National Academy of Sciences 118, no. 2 (December 28, 2020): e2020055118. http://dx.doi.org/10.1073/pnas.2020055118.

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Spin angular momentum of light is vital to investigate enantiomers characterized by circular dichroism (CD), widely adopted in biology, chemistry, and material science. However, to discriminate chiral materials with multiscale features, CD spectroscopy normally requires wavelength-swept laser sources as well as wavelength-specific optical accessories. Here, we experimentally demonstrate an orbital-angular-momentum-assisted approach to yield chiroptical signals with monochromatic light. The gigantic vortical differential scattering (VDS) of ∼120% is achieved on intrinsically chiral microstructures fabricated by femtosecond laser. The VDS measurements can robustly generate chiroptical properties on microstructures with varying geometric features (e.g., diameters and helical pitches) and detect chiral molecules with high sensitivity. This VDS scheme lays a paradigm-shift pavement toward efficiently chiroptical discrimination of multiscale chiral structures with photonic orbital angular momentum. It simplifies and complements the conventional CD spectroscopy, opening possibilities for measuring weak optical chirality, especially on mesoscale chiral architectures and macromolecules.
6

Aldama, Jennifer, Zhenqi Shi, Carlos Ortega-Zúñiga, Rodolfo J. Romañach, and Sergiy Lysenko. "Fractal and Polarization Properties of Light Scattering Using Microcrystalline Pharmaceutical Aggregates." Applied Spectroscopy 75, no. 1 (October 8, 2020): 94–106. http://dx.doi.org/10.1177/0003702820949272.

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Fractal and polarization analysis of diffusively scattered light is applied to determine the complex relationship between fractal dimension of structural morphology and concentration of chemically active ingredients in two pharmaceutical mixture systems including a series of binary mixtures of acetaminophen in lactose and three multicomponent blends with a proprietary active ingredient. A robust approach is proposed to identify and filter out multiple- and single-scattering components of scattering indicatrix. The fractal dimension extracted from scattering field reveals complex structural details of the sample, showing strong dependence on low-dose drug concentration in the blend. Low-angle diffraction shows optical “halo” patterns near the angle of specular reflection caused by light refraction in microcrystalline aggregates. Angular measurements of diffuse reflection demonstrate noticeable dependence of Brewster's angle on drug concentration. It is shown that the acetaminophen microcrystals produce scattered light depolarization due to their optical birefringence. The light scattering measurement protocol developed for diffusively scattered light by microcrystalline pharmaceutical compositions provides a novel approach for the pattern recognition, analysis and classification of materials with a low concentration of active chemical ingredients.
7

Wax, Adam, Changhuei Yang, Ramachandra R. Dasari, and Michael S. Feld. "Measurement of angular distributions by use of low-coherence interferometry for light-scattering spectroscopy." Optics Letters 26, no. 6 (March 15, 2001): 322. http://dx.doi.org/10.1364/ol.26.000322.

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8

Ceolato, Romain, Nicolas Riviere, Raphaël Jorand, Bernard Ducommun, and Corinne Lorenzo. "Light-scattering by aggregates of tumor cells: Spectral, polarimetric, and angular measurements." Journal of Quantitative Spectroscopy and Radiative Transfer 146 (October 2014): 207–13. http://dx.doi.org/10.1016/j.jqsrt.2014.04.027.

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9

Firth, N. C., N. W. Keane, D. J. Smith, and R. Grice. "Reactive Scattering of Oxygen Atoms With Bromine Molecules." Laser Chemistry 9, no. 4-6 (January 1, 1988): 265–76. http://dx.doi.org/10.1155/lc.9.265.

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Reactive scattering of O atoms with Br2 molecules has been studied at an initial translational energy E~35 kJ mol−1 using cross-correlation time-of-flight analysis with resolution improved over previous measurements. The centre-of-mass differential cross section peaks in the forward and backward directions with a higher product translational energy for backward Scattering. The angular distribution traced at the peak of the product velocity distribution peaks more sharply in the forward than the backward direction but the angular distribution of product flux shows a distribution which is more nearly symmetrical about θ = 90°. The observed scattering is attributed to a triplet OBrBr complex intermediate with a lifetime which is shorter than the period of overall rotation of the axis of the heavy BrBr diatomic but which is long compared with the period of vibrational and rotational motion of the light O atom.
10

Van Keuren, E. R., H. Wiese, and D. Horn. "Fiber-optic quasielastic light scattering in concentrated latex dispersions: angular dependent measurements of singly scattered light." Langmuir 9, no. 11 (November 1993): 2883–87. http://dx.doi.org/10.1021/la00035a026.

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11

Пахомов, Павел Михайлович, Светлана Дмитриевна Хижняк, Алена Игорьевна Маркова, and Вера Евгеньевна Ситникова. "DETERMINATION OF THE GEOMETRIC FORM OF SCATTERING PARTICLES INSIDE THE POLYMERIC MATRIX." Вестник Тверского государственного университета. Серия: Химия, no. 2(40) (June 6, 2020): 85–95. http://dx.doi.org/10.26456/vtchem2020.2.10.

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В работе предложен новый спектроскопический метод оценки анизометрии и ориентации рассевающих частиц (пор или частиц наполнителя) внутри полимерной матрицы путем построения угловых зависимостей интенсивности рассеянного света. На примере полимерных материалов с различной геометрической формой рассеивающих частиц (частицы наполнителя и поры сферической и вытянутой форм) построены угловые зависимости интенсивности рассеянного света, отражающие геометрическую форму усредненной рассеивающей частицы. A new spectroscopic method is proposed for assessing the anisometry and orientation of scattering particles (pores or filler particles) inside a polymer matrix by constructing angular dependences of the scattered light intensity. On the example of polymeric materials with different geometric shapes of scattering particles (filler particles and pores of spherical and elongated shapes), angular dependences of the scattered light intensity are constructed, which reflect the geometric shape of the averaged scattering particle.
12

Wax, Adam, and Kevin J. Chalut. "Nuclear Morphology Measurements with Angle-Resolved Low Coherence Interferometry For Application To Cell Biology And Early Cancer Detection." Analytical Cellular Pathology 34, no. 5 (2011): 207–22. http://dx.doi.org/10.1155/2011/597970.

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The study of intact, living cells using non-invasive optical spectroscopic methods offers the opportunity to assess cellular structure and organization in a way that is not possible with commonly used cell biology imaging techniques. We have developed a novel spectroscopic technique for diagnosing disease at the cellular level based on using low-coherence interferometry (LCI) to detect the angular distribution of scattered light. Angle-resolved LCI (a/LCI) combines the ability of LCI to isolate scattering from sub-surface tissue layers with the ability of light scattering spectroscopy to obtain structural information on sub-wavelength scales. In application to examining cellular structure, a/LCI enables quantitative measurements of changes in the size and texture of cell nuclei. These quantitative measurements are characteristic of different pathological states. The capabilities of a/LCI were demonstrated using a clinical system that can be applied in endoscopic surveillance of esophageal tissue, producing high sensitivity and specificity for detecting dysplastic tissuesin vivo. Experiments within vitrocell samples also show the utility of a/LCI in observing structural changes due to environmental stimuli as well as detecting apoptosis due to chemotherapeutic agents.
13

Bezuglyi, M. A., N. V. Bezuglaya, A. V. Ventsuryk, and K. P. Vonsevych. "Angular Photometry of Biological Tissue by Ellipsoidal Reflector Method." Devices and Methods of Measurements 10, no. 2 (June 24, 2019): 160–68. http://dx.doi.org/10.21122/2220-9506-2019-10-2-160-168.

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Angular measurements in optics of biological tissues are used for different applied spectroscopic task for roughness surface control, define of refractive index and for research of optical properties. Purpose of the research is investigation of the reflectance of biologic tissues by the ellipsoidal reflector method under the variable angle of the incident radiation.The research investigates functional features of improved photometry method by ellipsoidal reflectors. The photometric setup with mirror ellipsoid of revolution in reflected light was developed. Theoretical foundations of the design of an ellipsoidal reflector with a specific slot to ensure the input of laser radiation into the object area were presented. Analytical solution for calculating the angles range of incident radiation depending on the eccentricity and focal parameter of the ellipsoid are obtained. Also created the scheme of image processing at angular photometry by ellipsoidal reflector.The research represents results of experimental series for samples of muscle tissues at wavelengths 405 nm, 532 nm, 650 nm. During experiment there were received photometric images on the equipment with such parameters: laser beam incident angles range 12.5–62.5°, ellipsoidal reflector eccentricity 0.6, focal parameter 18 mm, slot width 8 mm.The nature of light scattering by muscle tissues at different wavelengths was represented by graphs for the collimated reflection area. The investigated method allows qualitative estimation of influence of internal or surface layers of biologic tissues optical properties on the light scattering under variable angles of incident radiation by the shape of zone of incident light.
14

Rey-Bayle, M., R. Bendoula, N. Caillol, and J.-M. Roger. "Multiangle near infrared spectroscopy associated with common components and specific weights analysis for in line monitoring." Journal of Near Infrared Spectroscopy 27, no. 2 (February 11, 2019): 134–46. http://dx.doi.org/10.1177/0967033519830062.

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Near infrared spectroscopy offers a number of important advantages for process monitoring. In addition to its numerous practical advantages, an important reason to use near infrared spectroscopy for process monitoring is its ability to supply versatile and multivariate information. However, in heterogeneous samples the interaction of light is complex and includes transmission, absorption, and scattering simultaneously which all affect spectra. The measurement of the signal at one point may be insufficient. A solution is to measure the medium at several points and to use specific multivariate analysis. In our study we propose to associate multipoint measurements with a common components and specific weight analysis. We monitored two media online by angular multipoint near infrared spectroscopy. For the first medium, in which only the scattering varies over time, the precipitation of silica was chosen to illustrate such a medium. For the second medium, both scattering and absorption vary, whereby microemulsions implemented for enhanced oil recovery illustrate this medium. The results showed, by combining multiangle measurements to common components and specific weight analysis, the interest of measuring at different angles. In the first case, two scattering regimes have been identified and it was possible to access the anisotropy coefficient during the silica precipitation reaction. In the second case study, on microemulsions, it was possible to identify the different phases and to separate the phenomena related to absorption and those related to diffusion. These encouraging results validate the interest of coupling multiangle measurements with multivariate multiblock analysis tools.
15

Koeylue, Uemit, Yangchuan Xing, and Daniel E. Rosner. "Fractal Morphology Analysis of Combustion-Generated Aggregates Using Angular Light Scattering and Electron Microscope Images." Langmuir 11, no. 12 (December 1995): 4848–54. http://dx.doi.org/10.1021/la00012a043.

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16

Bain, Alison, Aidan Rafferty, and Thomas C. Preston. "Determining the size and refractive index of single aerosol particles using angular light scattering and Mie resonances." Journal of Quantitative Spectroscopy and Radiative Transfer 221 (December 2018): 61–70. http://dx.doi.org/10.1016/j.jqsrt.2018.09.026.

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17

Loiko, V. A., M. N. Krakhalev, A. V. Konkolovich, O. O. Prishchepa, A. A. Miskevich, and V. Ya Zyryanov. "Experimental results and theoretical model to describe angular dependence of light scattering by monolayer of nematic droplets." Journal of Quantitative Spectroscopy and Radiative Transfer 178 (July 2016): 263–68. http://dx.doi.org/10.1016/j.jqsrt.2015.10.024.

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18

Jaglarz, Janusz, Piotr Dulian, Paweł Karasiński, and Paweł Winkowski. "Scattering Phenomena in Porous Sol-Gel-Derived Silica Films." Coatings 10, no. 6 (May 27, 2020): 509. http://dx.doi.org/10.3390/coatings10060509.

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This paper presents the results of investigations of optical scattering phenomena in porous silica films. SiO2 films were prepared by the sol-gel method and deposited on polished silicon wafers by the dip-coating technique. Fabricated films were studied using integrating sphere reflectometry, spectroscopic ellipsometry, atomic force microscopy, scanning electron microscopy, and angular resolve scattering. The spectral characteristics of the refractive and extinction indices and scattering extinction coefficients are presented. Additionally, the depolarization of reflected beam from samples was measured. The tested films were characterized by a thickness of 500 to 900 nm, a porosity of 50%, and refractive indices of less than 1.24. The observed depolarization of light reflected from SiO2 films resulted from surface and bulk scattering. This phenomenon resulted from the presence of surface and closed pores located in the bulk of SiO2 film.
19

Riviere, Nicolas, Romain Ceolato, and Laurent Hespel. "Polarimetric and angular light-scattering from dense media: Comparison of a vectorial radiative transfer model with analytical, stochastic and experimental approaches." Journal of Quantitative Spectroscopy and Radiative Transfer 131 (December 2013): 88–94. http://dx.doi.org/10.1016/j.jqsrt.2013.04.019.

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20

Le Gratiet, Aymeric, Riccardo Marongiu, and Alberto Diaspro. "Circular Intensity Differential Scattering for Label-Free Chromatin Characterization: A Review for Optical Microscopy." Polymers 12, no. 10 (October 21, 2020): 2428. http://dx.doi.org/10.3390/polym12102428.

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Circular Intensity Differential Scattering (CIDS) provides a differential measurement of the circular right and left polarized light and has been proven to be a gold standard label-free technique to study the molecular conformation of complex biopolymers, such as chromatin. In early works, it has been shown that the scattering component of the CIDS signal gives information from the long-range chiral organization on a scale down to 1/10th–1/20th of the excitation wavelength, leading to information related to the structure and orientation of biopolymers in situ at the nanoscale. In this paper, we review the typical methods and technologies employed for measuring this signal coming from complex macro-molecules ordering. Additionally, we include a general description of the experimental architectures employed for spectroscopic CIDS measurements, angular or spectral, and of the most recent advances in the field of optical imaging microscopy, allowing a visualization of the chromatin organization in situ.
21

Walters, Sequoyah, Jason Zallie, Gabriel Seymour, Yong-Le Pan, Gorden Videen, and Kevin B. Aptowicz. "Characterizing the size and absorption of single nonspherical aerosol particles from angularly-resolved elastic light scattering." Journal of Quantitative Spectroscopy and Radiative Transfer 224 (February 2019): 439–44. http://dx.doi.org/10.1016/j.jqsrt.2018.12.005.

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22

Adam, Jost, Ata Mahjoubfar, Eric D. Diebold, Brandon W. Buckley, and Bahram Jalali. "Spectrally encoded angular light scattering." Optics Express 21, no. 23 (November 15, 2013): 28960. http://dx.doi.org/10.1364/oe.21.028960.

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23

Liu Xiaoyan, 刘晓艳, 申晋 Shen Jin, 朱新军 Zhu Xinjun, 孙贤明 Sun Xianming, and 刘伟 Liu Wei. "Angular Dependence of Dynamic Light Scattering." Acta Optica Sinica 32, no. 6 (2012): 0629002. http://dx.doi.org/10.3788/aos201232.0629002.

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24

Buckley, Brandon W., Najva Akbari, Eric D. Diebold, Jost Adam, and Bahram Jalali. "Radiofrequency encoded angular-resolved light scattering." Applied Physics Letters 106, no. 12 (March 23, 2015): 123701. http://dx.doi.org/10.1063/1.4915621.

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25

Mourant, J. R., T. M. Johnson, V. Doddi, and J. P. Freyer. "Angular dependent light scattering from multicellular spheroids." Journal of Biomedical Optics 7, no. 1 (2002): 93. http://dx.doi.org/10.1117/1.1427053.

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26

Fuda, Michael G. "Angular momentum and light-front scattering theory." Physical Review D 44, no. 6 (September 15, 1991): 1880–90. http://dx.doi.org/10.1103/physrevd.44.1880.

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27

Takagi, Shinsaku, and Hajime Tanaka. "Phase-coherent light scattering spectroscopy. II. Depolarized dynamic light scattering." Journal of Chemical Physics 114, no. 14 (April 8, 2001): 6296–302. http://dx.doi.org/10.1063/1.1355021.

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28

Cummins, H. Z., Gen Li, Weimin Du, Y. H. Hwang, and G. Q. Shen. "Light Scattering Spectroscopy of Orthoterphenyl." Progress of Theoretical Physics Supplement 126 (1997): 21–34. http://dx.doi.org/10.1143/ptps.126.21.

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29

Videen, Gorden, Paul Pellegrino, Dat Ngo, Paul Nachman, and Ronald G. Pinnick. "Qualitative light-scattering angular correlations of conglomerate particles." Applied Optics 36, no. 15 (May 20, 1997): 3532. http://dx.doi.org/10.1364/ao.36.003532.

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30

Pellegrino, Paul, Gorden Videen, and Ronald G. Pinnick. "Quantitative light-scattering angular correlations of conglomerate particles." Applied Optics 36, no. 30 (October 20, 1997): 7672. http://dx.doi.org/10.1364/ao.36.007672.

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31

Tazaki, Ryo, Hidekazu Tanaka, Satoshi Okuzumi, Akimasa Kataoka, and Hideko Nomura. "LIGHT SCATTERING BY FRACTAL DUST AGGREGATES. I. ANGULAR DEPENDENCE OF SCATTERING." Astrophysical Journal 823, no. 2 (May 24, 2016): 70. http://dx.doi.org/10.3847/0004-637x/823/2/70.

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32

Mann, J. Adin, Paul D. Crouser, and William V. Meyer. "Surface fluctuation spectroscopy by surface-light-scattering spectroscopy." Applied Optics 40, no. 24 (August 20, 2001): 4092. http://dx.doi.org/10.1364/ao.40.004092.

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33

Patterson, G. D., and P. J. Carroll. "Light scattering spectroscopy of pure fluids." Journal of Physical Chemistry 89, no. 8 (April 1985): 1344–54. http://dx.doi.org/10.1021/j100254a008.

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34

Halaka, F. G. "Dielectrophoretic dynamic light-scattering (DDLS) spectroscopy." Proceedings of the National Academy of Sciences 100, no. 18 (August 18, 2003): 10164–69. http://dx.doi.org/10.1073/pnas.1233790100.

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35

Siny, I. G., S. G. Lushnikov, and R. S. Katiyar. "Light scattering spectroscopy of relaxor ferroelectrics." Ferroelectrics 231, no. 1 (June 1999): 115–20. http://dx.doi.org/10.1080/00150199908014521.

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36

Zhang, Yan, Fartash Vasefi, Mohamadreza Najiminaini, Bozena Kaminska, and Jeffrey J. L. Carson. "Radial angular filter arrays for angle-resolved scattering spectroscopy." Optics Express 21, no. 3 (January 31, 2013): 2928. http://dx.doi.org/10.1364/oe.21.002928.

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37

Fernandez, Jorge E., Viviana Scot, Eugenio Di Giulio, and Luca Verardi. "Angular distributions of scattering intensities with the SAP code." X-Ray Spectrometry 40, no. 2 (March 2011): 101–6. http://dx.doi.org/10.1002/xrs.1315.

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38

Yan, Yong‐Xin, and Keith A. Nelson. "Impulsive stimulated light scattering. II. Comparison to frequency‐domain light‐scattering spectroscopy." Journal of Chemical Physics 87, no. 11 (December 1987): 6257–65. http://dx.doi.org/10.1063/1.453454.

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39

Caumont-Prim, Chloé, Jérôme Yon, Alexis Coppalle, François-Xavier Ouf, and Kuan Fang Ren. "Measurement of aggregates' size distribution by angular light scattering." Journal of Quantitative Spectroscopy and Radiative Transfer 126 (September 2013): 140–49. http://dx.doi.org/10.1016/j.jqsrt.2012.07.029.

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40

Jung, JaeHwang, and YongKeun Park. "Spectro-angular light scattering measurements of individual microscopic objects." Optics Express 22, no. 4 (February 13, 2014): 4108. http://dx.doi.org/10.1364/oe.22.004108.

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41

Dogariu, Aristide, and Chaim Schwartz. "Conservation of angular momentum of light in single scattering." Optics Express 14, no. 18 (2006): 8425. http://dx.doi.org/10.1364/oe.14.008425.

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42

Tanaka, Hajime, and Shinsaku Takagi. "Phase-coherent light scattering spectroscopy. I. General principle and polarized dynamic light scattering." Journal of Chemical Physics 114, no. 14 (April 8, 2001): 6286–95. http://dx.doi.org/10.1063/1.1355020.

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43

ZAITSEV, A. "LIGHT QUARK SPECTROSCOPY." International Journal of Modern Physics A 22, no. 30 (December 10, 2007): 5492–501. http://dx.doi.org/10.1142/s0217751x0703875x.

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This report summarizes the results in light quark spectroscopy achieved in last few years. The variety of experimental approaches, from kaon decays to fix target experiments and high statistics studies at e + e - colliders lead to radical progress in this field. Topics of interest include low energy pion pion scattering, scalars, higher excitations in meson spectra and exotics. The impact of these results on the understanding of nonperturbative QCD as well as further prospects are discussed.
44

YUI, Hiroharu, and Tsuguo SAWADA. "New Approaches of Laser Light Scattering Spectroscopy." BUNSEKI KAGAKU 54, no. 6 (2005): 427–38. http://dx.doi.org/10.2116/bunsekikagaku.54.427.

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45

Patterson, G. D., D. J. Ramsay, and P. J. Carroll. "Depolarized light-scattering spectroscopy and polymer characterization." Analytica Chimica Acta 189 (1986): 57–67. http://dx.doi.org/10.1016/s0003-2670(00)83714-9.

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46

Yang, Changhuei, Lev T. Perelman, Adam Wax, Ramachandra R. Dasari, and Michael S. Feld. "Feasibility of field-based light scattering spectroscopy." Journal of Biomedical Optics 5, no. 2 (2000): 138. http://dx.doi.org/10.1117/1.429980.

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47

Hernandez, Joel, Gen Li, Herman Z. Cummins, Robert H. Callender, and Robert M. Pick. "Low-frequency light-scattering spectroscopy of powders." Journal of the Optical Society of America B 13, no. 6 (June 1, 1996): 1130. http://dx.doi.org/10.1364/josab.13.001130.

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48

Brun, Manfred, Peter Hubner, and Dieter Oelkrug. "Reflection spectroscopy in microstructured light scattering materials." Fresenius' Journal of Analytical Chemistry 344, no. 4-5 (1992): 209–13. http://dx.doi.org/10.1007/bf00322713.

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49

WANG Xue-mina, SHEN Jina, b, ZHU Xin-jun, WANG Ya-jinga, b, SUN Xian-ming, and YIN Li-ju. "Influence of Angular Combination on Multiangle Dynamic Light Scattering Measurement." ACTA PHOTONICA SINICA 45, no. 8 (2016): 829003. http://dx.doi.org/10.3788/gzxb20164508.0829003.

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50

Tagawa, Akira, Takashi Hatai, Kenji Nakao, Masanori Ozaki, and Katsumi Yoshino. "Angular Dependence of Transient Light Scattering in Ferroelectric Liquid Crystal." Japanese Journal of Applied Physics 28, S2 (January 1, 1989): 133. http://dx.doi.org/10.7567/jjaps.28s2.133.

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