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Artykuły w czasopismach na temat „Absorption laser spectroscopy”

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Data publikacji: 4 maja 2024

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1

Chao Shen, Chao Shen, Yujun Zhang Yujun Zhang i Jiazheng Ni Jiazheng Ni. "Compact cylindrical multipass cell for laser absorption spectroscopy". Chinese Optics Letters 11, nr 9 (2013): 091201–91205. http://dx.doi.org/10.3788/col201311.091201.

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2

Baev, V. M., T. Latz i P. E. Toschek. "Laser intracavity absorption spectroscopy". Applied Physics B: Lasers and Optics 69, nr 3 (1.09.1999): 171–202. http://dx.doi.org/10.1007/s003400050793.

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3

Nwaboh, Javis Anyangwe, Thibault Desbois, Daniele Romanini, Detlef Schiel i Olav Werhahn. "Molecular Laser Spectroscopy as a Tool for Gas Analysis Applications". International Journal of Spectroscopy 2011 (20.06.2011): 1–12. http://dx.doi.org/10.1155/2011/568913.

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We have used the traceable infrared laser spectrometric amount fraction measurement (TILSAM) method to perform absolute concentration measurements of molecular species using three laser spectroscopic techniques. We report results performed by tunable diode laser absorption spectroscopy (TDLAS), quantum cascade laser absorption spectroscopy (QCLAS), and cavity ring down spectroscopy (CRDS), all based on the TILSAM methodology. The measured results of the different spectroscopic techniques are in agreement with respective gravimetric values, showing that the TILSAM method is feasible with all different techniques. We emphasize the data quality objectives given by traceability issues and uncertainty analyses.
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4

Hergenröder, R., i K. Niemax. "Laser atomic absorption spectroscopy applying semiconductor diode lasers". Spectrochimica Acta Part B: Atomic Spectroscopy 43, nr 12 (styczeń 1988): 1443–49. http://dx.doi.org/10.1016/0584-8547(88)80183-6.

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5

Nomura, S., T. Kaneko, G. Ito, K. Komurasaki i Y. Arakawa. "Diode-Laser Induced Fluorescence Spectroscopy of an Optically Thick Plasma in Combination with Laser Absorption Spectroscopy". Journal of Spectroscopy 2013 (2013): 1–5. http://dx.doi.org/10.1155/2013/198420.

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Distortion of laser-induced fluorescence profiles attributable to optical absorption and saturation broadening was corrected in combination with laser absorption spectroscopy in argon plasma flow. At high probe-laser intensity, saturated absorption profiles were measured to correct probe-laser absorption. At low laser intensity, nonsaturated absorption profiles were measured to correct fluorescence reabsorption. Saturation broadening at the measurement point was corrected using a ratio of saturated to non-saturated broadening. Observed LIF broadening and corresponding translational temperature without correction were, respectively,2.20±0.05 GHz and2510±100 K and corrected broadening and temperature were, respectively,1.96±0.07 GHz and1990±150 K. Although this correction is applicable only at the center of symmetry, the deduced temperature agreed well with that obtained by LAS with Abel inversion.
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6

Gauglitz, G., i D. S. Moore. "Nomenclature, Symbols, Units, and Their Usage in Spectrochemical Analysis - Part XVII; Laser-Based Molecular Spectrometry For Chemical Analysis: Absorption". Pure and Applied Chemistry 71, nr 11 (30.11.1999): 2189–204. http://dx.doi.org/10.1351/pac199971112189.

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This report is the 17th in a series on spectrochemical methods of analysis issued by IUPAC commission V.4. It is concerned with the principles of laser absorption spectroscopy and its application in the optical wavelength region. The present report has four main sections: fundamentals of laser absorption spectroscopy, Doppler-limited spectroscopy; sub-Doppler laser spectroscopy, and time-resolved laser spectroscopy.
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7

Peshko, Igor. "Fast Laser Spectroscopy: Dynamical Absorption Line". Universal Journal of Physics and Application 8, nr 8 (październik 2014): 351–64. http://dx.doi.org/10.13189/ujpa.2014.020801.

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8

Tittel, Frank K., Damien Weidmann, Clive Oppenheimer i Livio Gianfrani. "Laser Absorption Spectroscopy for Volcano Monitoring". Optics and Photonics News 17, nr 5 (1.05.2006): 24. http://dx.doi.org/10.1364/opn.17.5.000024.

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9

Preston, Daryl W. "Doppler‐free saturated absorption: Laser spectroscopy". American Journal of Physics 64, nr 11 (listopad 1996): 1432–36. http://dx.doi.org/10.1119/1.18457.

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10

Mandon, Julien, Guy Guelachvili, Nathalie Picqué, Frédéric Druon i Patrick Georges. "Femtosecond laser Fourier transform absorption spectroscopy". Optics Letters 32, nr 12 (5.06.2007): 1677. http://dx.doi.org/10.1364/ol.32.001677.

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11

Marr, Andrew J., Simon W. North, Trevor J. Sears, Leah Ruslen i Robert W. Field. "Laser Transient Absorption Spectroscopy of Bromomethylene". Journal of Molecular Spectroscopy 188, nr 1 (marzec 1998): 68–77. http://dx.doi.org/10.1006/jmsp.1997.7500.

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12

Li, Jia-Ming, Lian-Bo Guo, Chang-Mao Li, Nan Zhao, Xin-Yan Yang, Zhong-Qi Hao, Xiang-You Li, Xiao-Yan Zeng i Yong-Feng Lu. "Self-absorption reduction in laser-induced breakdown spectroscopy using laser-stimulated absorption". Optics Letters 40, nr 22 (5.11.2015): 5224. http://dx.doi.org/10.1364/ol.40.005224.

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13

Matsui, Makoto, Kimiya Komurasaki, Satoshi Ogawa i Yoshihiro Arakawa. "Influence of laser intensity on absorption line broadening in laser absorption spectroscopy". Journal of Applied Physics 100, nr 6 (15.09.2006): 063102. http://dx.doi.org/10.1063/1.2353893.

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14

NAKASHIMA, Shinichi, i Tadashi ITOH. "Fundamentals of Laser Spectroscopy III. Absorption and Reflection Spectroscopy." Review of Laser Engineering 28, nr 2 (2000): 121–26. http://dx.doi.org/10.2184/lsj.28.121.

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15

Cauchi, S., A. Vorozcovs, M. Weel, S. Beattie, O. Gagnon i A. Kumarakrishnan. "Absorption spectroscopy of trapped rubidium atoms". Canadian Journal of Physics 82, nr 11 (1.11.2004): 905–16. http://dx.doi.org/10.1139/p04-055.

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We determine the absolute density of a sample of laser-cooled atoms in a two-level system by recording the absorption spectrum of the 85Rb 5S1/2 (F = 3, mf = 3) → 5P3/2 (F′ = 4, m′f = 4) transition. Trapped atoms were prepared in the (F = 3, mf = 3) ground state through optical-pumping techniques. We compare our results with an independent measure of the density that relies on a direct measurement of the number of atoms and size of the atomic sample. We also study the contributions of power broadening, laser line width, and Doppler broadening to the measured absorption spectrum. Our studies suggest that the natural line width (~6 MHz) can be measured to a precision of less than ~50 kHz if the laser line width is measured in real-time with a high-finesse Fabry–Perot cavity. PACS Nos.: 32.70.Cs, 32.70.Jz, 32.80.Pj, 42.62.Fi, 32.70.–n, 32.30.–r
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16

Li, Jinyi, Ziwei Yu, Zhenhui Du, Yue Ji i Chang Liu. "Standoff Chemical Detection Using Laser Absorption Spectroscopy: A Review". Remote Sensing 12, nr 17 (26.08.2020): 2771. http://dx.doi.org/10.3390/rs12172771.

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Remote chemical detection in the atmosphere or some specific space has always been of great interest in many applications for environmental protection and safety. Laser absorption spectroscopy (LAS) is a highly desirable technology, benefiting from high measurement sensitivity, improved spectral selectivity or resolution, fast response and capability of good spatial resolution, multi-species and standoff detection with a non-cooperative target. Numerous LAS-based standoff detection techniques have seen rapid development recently and are reviewed herein, including differential absorption LiDAR, tunable laser absorption spectroscopy, laser photoacoustic spectroscopy, dual comb spectroscopy, laser heterodyne radiometry and active coherent laser absorption spectroscopy. An update of the current status of these various methods is presented, covering their principles, system compositions, features, developments and applications for standoff chemical detection over the last decade. In addition, a performance comparison together with the challenges and opportunities analysis is presented that describes the broad LAS-based techniques within the framework of remote sensing research and their directions of development for meeting potential practical use.
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17

Wang, Runyu, Daming Dong, Zengtao Ji i Leizi Jiao. "Research on method for high sensitive detection of harmful gases in livestock houses based on laser absorption spectrum". E3S Web of Conferences 189 (2020): 01004. http://dx.doi.org/10.1051/e3sconf/202018901004.

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Harmful gases such as ammonia and hydrogen sulfide in livestock and poultry houses can seriously damage the health of livestock and poultry as well as animal keepers, so it is great significant to detect these harmful gases rapidly and accurately for the improvement of the welfare of animals and the health of animal keepers. Laser absorption spectroscopy is a gas detection method with the advantages of high sensitivity and selectivity, and is widely used in industrial gas detection. However, it needs further exploring to verify whether laser absorption spectroscopy is useful in detecting low concentration harmful gases in livestock and poultry houses. This paper researches on the method for high-sensitivity detection of harmful gases in livestock and poultry houses based on laser absorption spectroscopy by detecting the absorption signals of ammonia with a self-designed system including a tunable laser wavelength scanning system, a photoelectric detecting system and a long light path gas absorption well, and verifies that laser absorption spectroscopy can be used for detecting harmful gases in livestock and poultry houses.
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18

Tang, Yun, Lianbo Guo, Jiaming Li, Shisong Tang, Zhihao Zhu, Shixiang Ma, Xiangyou Li, Xiaoyan Zeng, Jun Duan i Yongfeng Lu. "Investigation on self-absorption reduction in laser-induced breakdown spectroscopy assisted with spatially selective laser-stimulated absorption". Journal of Analytical Atomic Spectrometry 33, nr 10 (2018): 1683–88. http://dx.doi.org/10.1039/c8ja00147b.

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19

Kachanov, Alexander A., Eric R. Crosson i Barbara A. Paldus. "Tunable Diode Lasers: Expanding the Horizon for Laser Absorption Spectroscopy". Optics and Photonics News 16, nr 7 (1.07.2005): 44. http://dx.doi.org/10.1364/opn.16.7.000044.

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20

Rahinov, Igor, Anatoly Goldman i Sergey Cheskis. "Intracavity Laser Absorption Spectroscopy for flame diagnostics". Israel Journal of Chemistry 47, nr 2 (grudzień 2007): 131–40. http://dx.doi.org/10.1560/ijc.47.2.131.

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21

Chen Jiuying, 陈玖英, 刘建国 Liu Jianguo, 何亚柏 He Yabai, 许振宇 Xu Zhenyu, 李晗 Li Han, 姚路 Yao Lu, 袁松 Yuan Song, 阮俊 Ruan Jun, 何俊峰 He Junfeng i 阚瑞峰 Kan Ruifeng. "Scanning Frequency Optimization of Laser Absorption Spectroscopy". Acta Optica Sinica 33, nr 2 (2013): 0230003. http://dx.doi.org/10.3788/aos201333.0230003.

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22

Chen, Hui, Vladimir A. Sautenkov, Paul S. Hsu, George R. Welch, Yuri V. Rostovtsev i Marlan O. Scully. "Absorption and fluorescence laser spectroscopy of Rb2molecules". Journal of Modern Optics 52, nr 16 (10.11.2005): 2373–80. http://dx.doi.org/10.1080/09500340500275819.

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23

Kaledin, Leonid A., i Michael C. Heaven. "Velocity modulated laser absorption spectroscopy of TiCl+". Journal of Chemical Physics 107, nr 18 (8.11.1997): 7020–24. http://dx.doi.org/10.1063/1.474944.

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24

Kilkenny, J. D., R. W. Lee, G. Kolbe, K. Estabrook, O. Landen, J. Bailey i C. L. S. Lewis. "Absorption spectroscopy of a laser‐produced plasma". Review of Scientific Instruments 57, nr 8 (sierpień 1986): 2197. http://dx.doi.org/10.1063/1.1138732.

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25

Skvortsov, L. A. "Laser photothermal spectroscopy of light-induced absorption". Quantum Electronics 43, nr 1 (31.01.2013): 1–13. http://dx.doi.org/10.1070/qe2013v043n01abeh014912.

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26

Paul, J. B., i R. J. Saykally. "Peer Reviewed: Cavity Ringdown Laser Absorption Spectroscopy". Analytical Chemistry 69, nr 9 (maj 1997): 287A—292A. http://dx.doi.org/10.1021/ac971622e.

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27

Kunz, Paul D., Thomas P. Heavner i Steven R. Jefferts. "Polarization-enhanced absorption spectroscopy for laser stabilization". Applied Optics 52, nr 33 (15.11.2013): 8048. http://dx.doi.org/10.1364/ao.52.008048.

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28

Guha, Avishek, i Ingmar Schoegl. "Tomographic laser absorption spectroscopy using Tikhonov regularization". Applied Optics 53, nr 34 (25.11.2014): 8095. http://dx.doi.org/10.1364/ao.53.008095.

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29

Aldener, M., B. Lindgren, A. Pettersson i U. Sassenberg. "Cavity Ringdown Laser Absorption Spectroscopy – Nitrogen cation". Physica Scripta 61, nr 1 (1.01.2000): 62–65. http://dx.doi.org/10.1238/physica.regular.061a00062.

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30

Cvijin, P. Vujkovic, J. J. O'Brien, G. H. Atkinson, W. K. Wells, J. I. Lunine i D. M. Hunten. "Methane overtone absorption by intracavity laser spectroscopy". Chemical Physics Letters 159, nr 4 (lipiec 1989): 331–36. http://dx.doi.org/10.1016/0009-2614(89)87495-0.

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31

Kireev, S. V., A. A. Kondrashov, B. R. Kusmankulov, S. L. Shnyrev, S. V. Suganeev i A. I. Sultangulova. "Application of TDLAS for measuring absorption coefficients of H2S rotational absorption lines near the wavelength of 2 µm". Laser Physics Letters 20, nr 12 (17.11.2023): 125701. http://dx.doi.org/10.1088/1612-202x/ad0a6f.

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Abstract This paper presents the experimental measurement of hydrogen sulfide absorption coefficients in the pressure range of 75–460 mbar of two rotational absorption lines of the vibrational band of H2S molecule at 021-000 transition using the tunable diode laser absorption spectroscopy technique. The obtained results are compared with the data of the HITRAN spectroscopic database.
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32

Li, Jiaming, Yun Tang, Zhongqi Hao, Nan Zhao, Xinyan Yang, Huiwu Yu, Lianbo Guo, Xiangyou Li, Xiaoyan Zeng i Yongfeng Lu. "Evaluation of the self-absorption reduction of minor elements in laser-induced breakdown spectroscopy assisted with laser-stimulated absorption". Journal of Analytical Atomic Spectrometry 32, nr 11 (2017): 2189–93. http://dx.doi.org/10.1039/c7ja00199a.

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33

Li, Jia-Ming, Lian-Bo Guo, Chang-Mao Li, Nan Zhao, Xin-Yan Yang, Zhong-Qi Hao, Xiang-You Li, Xiao-Yan Zeng i Yong-Feng Lu. "Self-absorption reduction in laser-induced breakdown spectroscopy using laser-stimulated absorption: publisher’s note". Optics Letters 45, nr 8 (7.04.2020): 2173. http://dx.doi.org/10.1364/ol.393638.

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34

Yuan Song, 袁松, 阚瑞峰 Kan Ruifeng, 何亚柏 He Yabai, 姚路 Yao Lu, 陈玖英 Chen Jiuying, 许振宇 Xu Zhenyu, 李晗 Li Han, 阮俊 Ruan Jun, 何俊峰 He Junfeng i 魏敏 Wei Min. "Laser Temperature Compensation Used in Tunable Diode-Laser Absorption Spectroscopy". Chinese Journal of Lasers 40, nr 5 (2013): 0515002. http://dx.doi.org/10.3788/cjl201340.0515002.

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35

Gvishi, R., G. S. He, P. N. Prasad, U. Narang, M. Li, F. V. Bright, B. A. Reinhardt, J. C. Bhatt i A. G. Dillard. "Spectroscopic Studies of New Blue Laser Dyes in Tetrahydrofuran Solution and in Composite Glass". Applied Spectroscopy 49, nr 6 (czerwiec 1995): 834–39. http://dx.doi.org/10.1366/0003702953964552.

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We have investigated the linear absorption, emission wavelength-dependent excitation, fluorescence polarization excitation, and lasing properties of new UV-blue dyes. The dyes are didecyl para-polyphenyl heptamer (DDPPH), didecyloxy para-polyphenyl heptamer (DDOPPH), and bisbenzothiazole 3,4- didecyloxy thiophene (BBTDOT). We studied the effect of dye concentration on absorption and emission and the origin of the peaks in tetrahydrofuran solution and in a composite glass. We show that, in a composite glass, it is possible to impregnate the dye with density of several orders without aggregation effects. The two heptamer dyes were found to be very photostable. All three dyes are promising candidates as laser dyes in the UV. Under excitation with a frequency-doubled dye laser (300 nm), the DDPPH lased at 377 nm. The DDOPPH lased at 425 nm and the BBTDOT lased at ∼450 nm when excited by the third harmonic of a Nd:YAG laser (355 nm). The output from the second heptamer in tetrahydrofuran was photostable (less than 10% decrease) for more than 900,000 pulses and with a slope efficiency of approximately 20%.
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36

Tang, Yun, Lianbo Guo, Jiaming Li, Shisong Tang, Zhihao Zhu, Shixiang Ma, Xiangyou Li, Xiaoyan Zeng, Jun Duan i Yongfeng Lu. "Correction: Investigation on self-absorption reduction in laser-induced breakdown spectroscopy assisted with spatially selective laser-stimulated absorption". Journal of Analytical Atomic Spectrometry 35, nr 7 (2020): 1492. http://dx.doi.org/10.1039/d0ja90041a.

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Correction for ‘Investigation on self-absorption reduction in laser-induced breakdown spectroscopy assisted with spatially selective laser-stimulated absorption’ by Yun Tang et al., J. Anal. At. Spectrom., 2018, 33, 1683–1688, DOI: 10.1039/C8JA00147B.
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37

Gyftokostas, Nikolaos, Eleni Nanou, Dimitrios Stefas, Vasileios Kokkinos, Christos Bouras i Stelios Couris. "Classification of Greek Olive Oils from Different Regions by Machine Learning-Aided Laser-Induced Breakdown Spectroscopy and Absorption Spectroscopy". Molecules 26, nr 5 (25.02.2021): 1241. http://dx.doi.org/10.3390/molecules26051241.

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In the present work, the emission and the absorption spectra of numerous Greek olive oil samples and mixtures of them, obtained by two spectroscopic techniques, namely Laser-Induced Breakdown Spectroscopy (LIBS) and Absorption Spectroscopy, and aided by machine learning algorithms, were employed for the discrimination/classification of olive oils regarding their geographical origin. Both emission and absorption spectra were initially preprocessed by means of Principal Component Analysis (PCA) and were subsequently used for the construction of predictive models, employing Linear Discriminant Analysis (LDA) and Support Vector Machines (SVM). All data analysis methodologies were validated by both “k-fold” cross-validation and external validation methods. In all cases, very high classification accuracies were found, up to 100%. The present results demonstrate the advantages of machine learning implementation for improving the capabilities of these spectroscopic techniques as tools for efficient olive oil quality monitoring and control.
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38

Alam, Shawon, Pallabi Paul, Vivek Beladiya, Paul Schmitt, Olaf Stenzel, Marcus Trost, Steffen Wilbrandt i in. "Heterostructure Films of SiO2 and HfO2 for High-Power Laser Optics Prepared by Plasma-Enhanced Atomic Layer Deposition". Coatings 13, nr 2 (26.01.2023): 278. http://dx.doi.org/10.3390/coatings13020278.

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Absorption losses and laser-induced damage threshold (LIDT) are considered to be the major constraints for development of optical coatings for high-power laser optics. Such coatings require paramount properties, such as low losses due to optical absorption, high mechanical stability, and enhanced damage resistance, to withstand high-intensity laser pulses. In this work, heterostructures were developed by sub-nanometer thin films of SiO2 and HfO2 using the plasma-enhanced atomic layer deposition (PEALD) technique. Thin-film characterization techniques, such as spectroscopic ellipsometry, spectrophotometry, substrate curvature measurements, X-ray reflectivity, and Fourier transform infrared spectroscopy, were employed for extracting optical constants, residual stress, layer formation, and functional groups present in the heterostructures, respectively. These heterostructures demonstrate tunable refractive index, bandgap, and improved optical losses and LIDT properties. The films were incorporated into antireflection coatings (multilayer stacks and graded-index coatings) and the LIDT was determined at 355 nm wavelength by the R-on-1 method. Optical absorptions at the reported wavelengths were characterized using photothermal common-path interferometry and laser-induced deflection techniques.
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39

ZIMMERMANN, Henrik, i Tomonori MIZUNO. "Infrared Laser Absorption Spectroscopy with Quantum Cascade Lasers in Industrial Application". Review of Laser Engineering 39, nr 10 (2011): 753–56. http://dx.doi.org/10.2184/lsj.39.753.

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40

Li, Jiaming, Yun Tang, Zhongqi Hao, Nan Zhao, Xinyan Yang, Huiwu Yu, Lianbo Guo, Xiangyou Li, Xiaoyan Zeng i Yongfeng Lu. "Correction: Evaluation of the self-absorption reduction of minor elements in laser-induced breakdown spectroscopy assisted with laser-stimulated absorption". Journal of Analytical Atomic Spectrometry 35, nr 7 (2020): 1494. http://dx.doi.org/10.1039/d0ja90031a.

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Correction for ‘Evaluation of the self-absorption reduction of minor elements in laser-induced breakdown spectroscopy assisted with laser-stimulated absorption’ by Jiaming Li et al., J. Anal. At. Spectrom., 2017, 32, 2189–2193, DOI: 10.1039/C7JA00199A.
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41

Kovalev, Michael, Alena Nastulyavichus, Ivan Podlesnykh, Nikita Stsepuro, Victoria Pryakhina, Evgeny Greshnyakov, Alexey Serdobintsev, Iliya Gritsenko, Roman Khmelnitskii i Sergey Kudryashov. "Au-Hyperdoped Si Nanolayer: Laser Processing Techniques and Corresponding Material Properties". Materials 16, nr 12 (16.06.2023): 4439. http://dx.doi.org/10.3390/ma16124439.

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The absorption of light in the near-infrared region of the electromagnetic spectrum by Au-hyperdoped Si has been observed. While silicon photodetectors in this range are currently being produced, their efficiency is low. Here, using the nanosecond and picosecond laser hyperdoping of thin amorphous Si films, their compositional (energy-dispersion X-ray spectroscopy), chemical (X-ray photoelectron spectroscopy), structural (Raman spectroscopy) and IR spectroscopic characterization, we comparatively demonstrated a few promising regimes of laser-based silicon hyperdoping with gold. Our results indicate that the optimal efficiency of impurity-hyperdoped Si materials has yet to be achieved, and we discuss these opportunities in light of our results.
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42

Pei Shixin, 裴世鑫, 崔芬萍 Cui Fenping, 詹煜 Zhan Yu i 李传起 Li Chuanqi. "Cavity-Enhanced Absorption Spectroscopy Based on Diode Laser". Acta Optica Sinica 29, nr 3 (2009): 831–38. http://dx.doi.org/10.3788/aos20092903.0831.

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43

Merten, Jonathan. "Laser-ablation absorption spectroscopy: Reviewing an uncommon hyphenation". Spectrochimica Acta Part B: Atomic Spectroscopy 189 (marzec 2022): 106358. http://dx.doi.org/10.1016/j.sab.2022.106358.

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44

Ma, Tong-mei, Ling Li, Joanne Wing Har Leung i Allan Shi Chung Cheung. "Cavity Ring Down Laser Absorption Spectroscopy of NiI". Chinese Journal of Chemical Physics 22, nr 6 (grudzień 2009): 611–14. http://dx.doi.org/10.1088/1674-0068/22/06/611-614.

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Stark, A., L. Correia, M. Teichmann, S. Salewski, C. Larsen, V. M. Baev i P. E. Toschek. "Intracavity absorption spectroscopy with thulium-doped fibre laser". Optics Communications 215, nr 1-3 (styczeń 2003): 113–23. http://dx.doi.org/10.1016/s0030-4018(02)02188-0.

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Ying, Z. C., A. S. Lahamer, O. Yavas, R. F. Haglund Jr i R. N. Compton. "Infrared absorption spectroscopy using a free-electron laser". Chemical Physics Letters 282, nr 3-4 (styczeń 1998): 268–72. http://dx.doi.org/10.1016/s0009-2614(97)01330-4.

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Handler, Kimberly G., Rachel A. Harris, Leah C. O’Brien i James J. O’Brien. "Intracavity laser absorption spectroscopy of platinum fluoride, PtF". Journal of Molecular Spectroscopy 265, nr 1 (styczeń 2011): 39–46. http://dx.doi.org/10.1016/j.jms.2010.10.006.

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Chang, Chih-Hsuan, Zhong Wang, Gregory E. Hall, Trevor J. Sears i Ju Xin. "Transient laser absorption spectroscopy of CH2 near 780nm". Journal of Molecular Spectroscopy 267, nr 1-2 (maj 2011): 50–57. http://dx.doi.org/10.1016/j.jms.2011.02.004.

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Bierret, A., Q. Desbois, J. L. Martin, S. Kassi, S. A. Tashkun, V. I. Perevalov i A. Campargue. "Intracavity Laser Absorption Spectroscopy of 13C16O2 near 734nm". Journal of Molecular Spectroscopy 298 (kwiecień 2014): 38–42. http://dx.doi.org/10.1016/j.jms.2014.02.005.

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