Vývoj algoritmu pro automatickou charakterizaci vzorku na základě dat získaných spektroskopií laserem indukovaného plazmatu (LIBS) / Development of an Algorithm for Automatic Characterization of a Sample Based on the Data Received by Means of the Laser Induced Breakdown Spectroscopy (LIBS).

Klus, Jakub

January 2018

Submitted work concerns with the theoretical and practical requirements for an automatic characterization of samples by means of Laser-Induced Breakdown Spectroscopy (LIBS). Theoretical aspects of laser-matter interaction, plasma expansion, and plasma emission are described theoretically within this work. The description of the plasma emission is enhanced with the spectral detection systems and statistical properties of the plasma. The principle of the automatic characterization is based on the multivariate data analysis theoretical background, which presents recent trend and fundamental approach for automatic spectra analysis in LIBS. Theoretical knowledge is manifested in six applications, which are presented as a comment to published manuscripts. These publications push the frontiers of automatic spectra processing in LIBS.

Srovnání přístupů kvantitativní analýzy v spektroskopii laserem buzeného plazmatu / Comparison of quantification strategies in Laser-Induced Breakdown Spectroscopy

Hošek, Martin

January 2018

The aim of the submitted work is a comparison of methods of quantitative analysis used in laser-induced breakdown spectroscopy (LIBS). The principles of LIBS method are explained at first, followed by a research of the most often used methods of quantitative analysis. The next part provides their description enabling a better comprehension and an eventual use of the methods in practice. Finally, the chosen methods are used to process data from the real experiment and the results are compared.

Vývoj univerzálního softwarového rozhraní pro detekční jednotky v optické spektroskopii / Development of universal software interface for detection units in optical spectroscopy

Belica, Martin

January 2020

This master's thesis deals with the design and implementation of universal user interface for detection devices used in Laser-induced breakdown spectroscopy. The design and implementation are based on analysis of current state of instrumentation used in laser spectroscopy. The user interface should be able to work with high repetition frequency of measurement. Acquired spectra should be visualised to user and it is also necessary to save this data on hard drive. The resulting application must be universal. It means the application must support various types and vendors of detection devices.

Mechanism of laser-plasma formation in water and the application to in-situ elemental analysis / 水中レーザープラズマの生成メカニズムとその場元素分析への応用

Tamura, Ayaka

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第18998号 / 工博第4040号 / 新制||工||1622(附属図書館) / 31949 / 京都大学大学院工学研究科物質エネルギー化学専攻 / (主査)教授 作花 哲夫, 教授 安部 武志, 教授 田中 勝久 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

laser ablation in water

cavitation bubble

laser plasma

in-situ elemental analysis

500

Understanding of laser ablation phenomena for quantitative elemental analysis based on underwater laser-induced breakdown spectroscopy / 水中レーザー誘起ブレークダウン分光法による定量元素分析のためのレーザーアブレーション現象の解明

Matsumoto, Ayumu

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19732号 / 工博第4187号 / 新制||工||1646(附属図書館) / 32768 / 京都大学大学院工学研究科物質エネルギー化学専攻 / (主査)教授 作花 哲夫, 教授 安部 武志, 教授 阿部 竜 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

laser ablation in water

quantitative elemental analysis

electrodeposition

laser evaporation

500

Development Of Laser Spectroscopy For Elemental And Molecular Analysis

Liu, Yuan

01 January 2013

Laser-Induced Breakdown Spectroscopy (LIBS) and Raman spectroscopy are still growing analytical and sensing spectroscopic techniques. They significantly reduce the time and labor cost in analysis with simplified instrumentation, and lead to minimal or no sample damage. In this dissertation, fundamental studies to improve LIBS analytical performance were performed and its fusion with Raman into one single sensor was explored. On the fundamental side, Thomson scattering was reported for the first time to simultaneously measure the electron density and temperature of laser plasmas from a solid aluminum target at atmospheric pressure. Comparison between electron and excitation temperatures brought insights into the verification of local thermodynamic equilibrium condition in laser plasmas. To enhance LIBS emission, Microwave-Assisted LIBS (MA-LIBS) was developed and characterized. In MA-LIBS, a microwave field extends the emission lifetime of the plasma and stronger time integrated signal is obtained. Experimental results showed sensitivity improvement (more than 20-fold) and extension of the analytical range (down to a few tens of ppm) for the detection of copper traces in soil samples. Finally, laser spectroscopy systems that can perform both LIBS and Raman analysis were developed. Such systems provide two types of complimentary information – elemental composition from LIBS and structural information from Raman. Two novel approaches were reported for the first time for LIBS-Raman sensor fusion: (i) an Ultra-Violet system which combines Resonant Raman signal enhancement and high ablation efficiency from UV radiation, and (ii) a Ti:Sapphire laser based NIR system which reduces the fluorescence interference in Raman and takes advantage of femtosecond ablation for LIBS.

Laser induced breakdown spectroscopy

laser plasma

thomson scattering

raman spectroscopy

Electromagnetics and Photonics

Optics

Application of laser-induced breakdown spectroscopy (LIBS) to the expansion of strontium (Sr) analysis options and to used engine oil

Binzowaimil, Ayed M

06 August 2021

Laser-induced breakdown spectroscopy (LIBS) is a technique that allows quantitative and qualitative analysis of many materials. In this study, the LIBS analysis options for strontium mixture powders is expanded by increasing the number of usable strontium atomic transitions to avoid incorrect results due to spectral congestion or high strontium concentrations. The research employs double-sided tape affixed to a glass slide to hold the sample where the powder is poured onto one surface of the tape and excess dust that has not adhered is removed. This method minimizes the sample quantity needed and keeps the sample on the slide during experimentation, which also reduces costs. Herein, LIBS was used to detect and quantify the level of metal concentrations in used engine oil samples to provide valuable information about the composition of the selected material in a liquid sample. Data were obtained using multivariate analysis to develop calibration curves using LIBS spectra, which was employed for the quantification of the elements Al, Ca, Fe, Mg, and Mn. The relationship between the peak intensity of the metals in new engine oil samples and the metal concentrations in used engine oil samples were analyzed to minimize the matrix effect and the interference of element lines after which the atomic emission observed in LIBS spectra of used engine oil and new engine oil were compared. C2 molecular band emissions were also used to determine the degree of the engine oil degradation. Next, calibration models were developed for samples with high species concentrations. A partial least squares regression model was developed for calibration models to overcome matrix effect problems of some lines of each metal. This research successfully used the LIBS technique to determine the degree of engine oil degradation. This study established that used engine oil analysis using the LIBS technique can be utilized to maintain engines in good condition and to prevent engine failure. This paper presents the key findings and conclusions regarding the application of LIBS. Finally, although this technique shows many benefits and reliable results, challenges remain in terms of matrix effects, spectral pre-processing, model calibration, and instrumentation.

laser-induced breakdown spectroscopy

LIBS

C2 molecular bands

engine oil

transmission oil

analysis of metals

Trace Elemental Analysis of Selenium and Antimony Using Hydride Generation Coupled to Laser Induced Breakdown Spectroscopy

Williamson, Latresa J.

31 October 2010

No description available.

Analytical Chemistry

Chemistry

Environmental Science

hydride generation

laser induced breakdown spectroscopy

trace analysis of selenium and antimony

Temporal and spatial characteristics of laser-induced plasma on organic materials and quantitative analysis of the contained inorganic elements / Caractéristiques temporelles et spatiales de plasma induit par laser sur des marériaux organiques et analyse quantitative des éléments minéraux contenus

Lei, Wenqi

06 July 2012

Ce travail de thèse a été consacré à la compréhension du plasma induit par laser sur des matériaux organiqueset à l’application de la technique de laser-induced breakdown spectroscopy (LIBS) à l’analyse quantitative deces matériaux. L’ensemble des travaux contribue donc à approfondir notre connaissance sur les mécanismesphysiques impliqués dans l’interaction laser-matière, dans la génération du plasma et dans l’évolution decelui-ci au cours de son expansion dans le gaz ambiant avec la spécificité de s’adresser à des plasmas induitssur des cibles organiques. Ces travaux visent également à améliorer la performance de la LIBS pour l’analysede matériaux organiques. La spécificité concernant la cible organique répond au besoin actuel de lacommunauté internationale travaillant sur le développement de la LIBS, de mieux maîtriser le plasma induitsur ce genre de matériau qui présente des propriétés optiques bien spécifiques par rapport à des matériauxmieux connus pour l’ablation laser tels que des métaux. Elle répond également au besoin grandissant d’utiliserla technique LIBS aux matériaux organiques pour des applications dans les domaines environnementaux,agroalimentaires, ou encore biomédicaux. Ce mémoire de thèse a été rédigé selon l’organisation suivante. Après l’Introduction Générale qui préciseles contextes scientifiques et technologiques, le Chapitre I rappelle les principes de base nécessaires à lacompréhension du phénomène de génération de plasma par ablation laser, et de l’évolution de celui-ci dans ungaz ambiant. L’accent a été mis sur l’ablation des matériaux organiques. Les procédures et les techniques dediagnostic du plasma induit par laser sont ensuite présentées en insistant sur la nature transitoire etinhomogène d’un plasma en expansion. Le chapitre II s’intéresse à la génération et l’évolution du plasmainduit sur la peau d’une pomme de terre, un échantillon typique de produit agroalimentaire. La caractéristiquedu plasma induit sur une cible organique molle et humide, comme une pomme de terre fraîche était quelquechose d’inconnu au démarrage de la thèse et constituait une base nécessaire à l’analyse quantitative deséléments métalliques en traces et ultra-traces contenus dans un tel échantillon. A l’issue de cettecaractérisation, les données analytiques semi-quantitatives ont été extraites des spectres LIBS correspondant àla peau d’une pomme de terre. Le Chapitre III se situe dans la continuité du Chapitre II pour l’application de laLIBS à des matériaux organiques. Une étude comparative d’analyse de la poudre de lait par la LIBS et parl’ICP-AES permet une évaluation de la performance d’analyse quantitative de la LIBS pour des échantillonsorganiques, et une validation de la procédure CF-LIBS. A la différence des Chapitres II et III où les élémentsde traces métalliques étaient au centre de notre attention, le Chapitre IV étudie le comportement des élémentsmajeurs qui composent la matrice d’un matériau organique, qui sont les 4 éléments organiques, H, C, O, N. Ala décomposition d’un matériau organique par ablation laser, ces éléments peuvent se présenter sous la formede fragments moléculaires, ou encore se recombiner en des espèces moléculaires. Nous étudions alors dans ceChapitre l’évolution de ces espèces en fonction des paramètres du laser utilisé, et notamment la longueurd’onde. Le mémoire se termine par une conclusion générale et des perspectives. / This PhD work was devoted to the understanding of the laser-induced plasma on organic materials and theapplication of laser-induced breakdown spectroscopy (LIBS) to quantitative analysis of these materials. Itcontributes to deepen our knowledge on the physical mechanisms involved in laser-matter interaction, plasmageneration, evolution and expansion of the plasma into the ambient gas, with emphasis on plasmas induced onorganic targets. It also intends to improve the performance of LIBS for the analysis of organic materials. Thespecificity for organic targets fits the current focus of the international community working on LIBS, toimprove the control of the plasma induced on this kind of material which has a distinguished optical prosperitywith respect to that of metals, better known for laser ablation. It addresses also the growing need to apply theLIBS technique to organic materials for different applications in the environmental, food, or biomedicaldomains. The works in this thesis were therefore presented in this thesis document according to the followingorganization.After the General Introduction which introduces the scientific and technological contexts, Chapter Irecalls the basic theoretical elements necessary to understand the phenomenon of plasma generation by laserablation, and its evolution in the background gas. Ablation of organic material is emphasized. Procedures andtechniques of diagnostics of laser-induced plasma were then presented with a focus on the transient andinhomogeneous nature of the expanding plasma. Chapter II focuses on the generation and the evolution of theplasma induced on the skin of a potato, a typical sample of agricultural product. The characteristics of plasmainduced on a soft and wet organic target, such as a fresh potato, was something unknown when the thesis workstarted. These characteristics provide the necessary basis for the quantitative analysis of the trace andultra-trace metallic elements in these samples. Following this characterization, semi-quantitative analyticalresults were extracted from LIBS spectra corresponding to potato skin. Chapter III is presented in thecontinuity of Chapter II for the application of LIBS to the quantitative analysis of organic materials. Acomparative study on the analytical results with LIBS and ICP-AES for milk powders allows an assessment ofthe performances of quantitative analysis by LIBS for organic materials, and a validation of the CF-LIBSprocedure that we have developed. Different from Chapters II and III where attention was paid to trace metalelements, Chapter IV studies the behavior of the major elements that make up the matrix of organic material,which are 4 known organic elements: H, C, O, N. During the decomposition of organic material by laserablation, these elements can be found in the form of molecular fragments, or recombined into molecularspecies. We then study in this Chapter the evolution of these species as a function of the laser ablationparameters, the laser wavelength in particular. The thesis document ends with a general conclusion andoutlooks.

Ablation laser

Plasma induit par laser

Calibration free LIBS

Spectrométrie optique

Matériel organique

Laser ablation

Laser-induced plasma

Calibration free LIBS

Optical spectroscopy

Organic material

530.44

Spectroscopie optique d’émission et spectroscopie laser pour le diagnostic des plasmas induits par laser / Optical emission spectroscopy and laser scattering for laser induced plasmas diagnostic

Farah Sougueh, Ali

07 September 2015

Les plasmas induits par laser (PIL) ont depuis leurs apparitions dans les années soixante suscité un très grand intérêt notamment comme source de données spectroscopiques. Ils ont également acquis des nombreuses applications, comme sources des rayons X pour la lithographie, l’allumage plasma, la déposition par laser pulsé, ou sont devenues la base d’une technique d’analyse très populaire – la LIBS (laser induced breakdown spectroscopy). Cette dernière peut s’appliquer in situe à tout type d’échantillon et sans préparation. Toutefois, les mesures faites par cette méthode sont latéralement intégrées nécessitant des techniques d’inversion, mais dépendent également des conditions d’équilibre thermodynamiques local (ETL) dans le plasma. Afin de valider les mesures effectuées par LIBS, la diffusion Thomson qui est une méthode spatialement résolue et indépendante des hypothèses d’équilibre thermodynamique a été appliquée pour caractériser les PIL. Des plasmas d’ablation et de claquage ont donc été caractérisés à la fois par spectroscopie d’émission et par diffusion Thomson. La comparaison des paramètres température et densité électronique obtenues par les deux méthodes d’une part, et le critère de McWhirter ainsi que les temps de relaxation et les longueurs de diffusions des espèces contenues dans le plasma d’autre part, ont permis de statuer sur l’ETL. / Laser induced plasma (LIP) which was first reported in the beginning of sixties, has achieved a great interest as a source of spectroscopic data. It has also many applications like X-ray sources for lithography, plasma igniters, pulsed laser deposition or it has become a basis of a very popular analytical technique – LIBS (laser induced breakdown spectroscopy). The latter is mainly due to its applicability to different kinds of samples, no sample preparation or in-situ and remote sensing capability. However, LIBS measurements are laterally integrated and Abel inversion must be performed. Also the method assumes the plasma to be in local thermodynamic equilibrium (LTE). In order to validate LIBS measurements, Thomson scattering (TS) method which is spatially resolved and free from equilibrium assumption was applied. Thus, ablation and breakdown plasmas were characterized by both two methods. Comparison between plasma parameters (temperature and electron density) obtained by the two methods and McWhirter criterion as well as relaxation times and diffusion lengths of species in the plasma allowed to estimate LTE.

Plasma induit par laser

Diffusion Thomson

Spectroscopie optique d’émission

Equilibre thermodynamique local (ETL)

Laser induced plasma (LIP)

Thomson scattering

Local thermodynamic equilibrium (LTE)

530.44