Relevant bibliographies by topics / Diamond

Academic literature on the topic 'Diamond'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 August 2024

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Journal articles on the topic "Diamond"

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Lin, Guan Fu, Ming Yi Tsai, and Chiu Yuan Chen. "Development of a Combined Diamond Impregnated Lapping Plate." Key Engineering Materials 739 (June 2017): 157–63. http://dx.doi.org/10.4028/www.scientific.net/kem.739.157.

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This paper presents a combined diamond-impregnated lapping plate for single crystal silicon carbide (SiC) to improve the material removal rate due to SiC having very low material removal rate. Three different dimaond shapes were prepared: (1) "sharp," a sharp-edged diamod; (2) "blocky," a high quality crystalline diamond; (3) "oxidized diamond". The diamonds were manufactured by using high temperature heating method in a furnace to induce diamond oxidation resulting in improvement of Ra and sharpness of the diamonds. Three combined diamond-impregnated lapping plates were fabricated using the above mentioned diamond shapes with diamond size of 6μm. The surface roughness and removal rate of the SiC lapping with these plate were investigated. Experimental results showed that the average material removal rate (MRR) of oxidized diamond is higher than that of the other diamond shapes. The MRR of oxidized diamond for C-face and Si-face SiC are 4.72μm/hr and 6.26μm/hr, respectively. It is found that the surface roughness (Ra) of oxidized diamond for C-face and Si-face are 7.547nm and 8.06nm, respectively. This indicates that the combined diamond-impregnated lapping plate can be effectively used for SiC machining.
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Muhammad Basysyar, Fadhil, and Gifthera Dwilestari. "COMPARISON OF MACHINE LEARNING ALGORITHMS FOR PREDICTING DIAMOND PRICES BASED ON EXPLORATORY DATA ANALYSIS." International Journal of Engineering Applied Sciences and Technology 7, no. 5 (September 1, 2022): 71–79. http://dx.doi.org/10.33564/ijeast.2022.v07i05.012.

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Diamonds are a unique commodity whose socially generated notions significantly influence perceived value. To study how a diamond's physical attributes might predict its price, a massive dataset of loose diamonds scraped from an online diamond store is subjected to data mining, which reveals that diamond weight, color, and clarity are the most influential determinants of diamond pricing. Therefore, submit a proposal for an Exploratory Data Analysis that includes a component that analyses various parts of news articles using LASSO Regression, ElasticNet Regression, and Random Forest Regression. This system is trained on past data to forecast diamond prices while retaining an easily interpretable trading approach concerning rule complexity. The suggested strategy beats cutting-edge methods for prediction accuracy and interpretability, such as extreme learning machines using deep learning. Our data indicate that the news impact factor is crucial for forecasting. Demonstrate that the suggested system outperforms the average yearly return while offering a set of language trading rules that are interpretable. This has substantial repercussions for investors. A significant degree of subjectivity in diamond pricing may result from diamond dealers' price concealment techniques.
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Liu, Fu-Kang, Ying Guo, Bei Zhao, and Xiang Li. "The Color Origin and Evaluation of Natural Colored Diamonds." Science of Advanced Materials 14, no. 2 (February 1, 2022): 243–56. http://dx.doi.org/10.1166/sam.2022.4210.

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Diamond is widely concerned and loved by people due to its rarity, beauty and beautiful implication in love. Color is very important in colored diamonds’ evaluation, and diamonds are extremely colorful. Scholars have done some researches on the color origin of colored diamonds, but the types of diamonds studied are not comprehensive, and the influence of these color origins on diamonds’ color evaluation has not been systematically clarified. Therefore, this paper focuses on the color of diamonds, arranges a large number of documents, and systematically summarizes and discusses the color and evaluation of colored diamonds. Firstly, the five color systems on which the description of diamond color depends, including principles, advantages and limitations, are described and compared. Then, the types and action mechanism of all color origins of colored diamonds are expounded in detail and comprehensively. In addition, the influence of factors other than the characteristics of diamond itself on diamond’s color evaluation are discussed, including cutting, fluorescence and phosphorescence. Finally, the intelligent color evaluation of colored diamonds is prospected, which will be widely used in the future. And this review will provide reference for the color evaluation of other colored gemstones.
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Xu, Jingru. "Prediction on the Prices of Laboratory-Grown Diamonds based on Multiple Linear Regression Model." Highlights in Business, Economics and Management 35 (June 16, 2024): 101–7. http://dx.doi.org/10.54097/8yaq7c77.

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Diamond as emotional investment, in recent years, the market price of it is going through rising and falling, and drastic fluctuating, more is the decline in price. The diamond industry has also been challenged, there is happening oversupply and weak demand in diamond market. The impact of lab-grown diamonds on natural diamonds has also changed the price of diamonds across the diamond industry. However, the market of diamond is still at the forefront of the jewelry industry. In order to ensure that consumers have more understanding of diamond choices, this paper adopts multiple linear regression model to forecast diamond prices, collects a large amount of data, and uses 4c criteria as the standard for diamond price prediction to explore the relationship between diamond prices and diamond measurement standards. Through the calculation, the diamond buyers will explore ways to realize diamond price, the diamond industry will be rationalized production, and balance the relationship between diamond supply and demand to provide a method.
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Jaskie, James E. "Diamond-Based Field-Emission Displays." MRS Bulletin 21, no. 3 (March 1996): 59–64. http://dx.doi.org/10.1557/s0883769400036149.

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Diamond has existed in the natural state for thousands of years. It was mainly used as a jewel for its optical brilliance and for its hardness. In the 1950s methods were developed to fabricate synthetic diamonds commercially. This greatly increased diamond's industrial use, mostly for grinding and lapping applications. Diamond is a crystalline form of carbon, a group-IV element in the periodic table. Silicon and germanium are also Group-IV elements and also have the same crystalline lattice structure as diamond. Hence there has been theoretical interest in diamond's electronic properties since the beginning of the semiconductor age. However the cost and poor crystalline quality of both natural and synthetic diamond have precluded any real industrial interest in diamond as an electronic material. Methods of low-temperature and low-pressure diamond-film deposition, developed initially by the Russians in the 1950s and 1960s (and thence by the Japanese, and eventually by others) has made it possible to use this exotic material as an electronic substrate.Diamond, in single-crystalline, polycrystalline, and diamondlike carbon (DLC) forms, is a material with many unusual properties. It is the hardest naturally occurring material, the most thermally conductive, and the most transparent. It also has the slickness of Teflon. In regard to many physical properties, it is at the extreme end of the scale. One of the more unusual and important properties that it possesses is its presentation of a rather small barrier to the emission of electrons into a vacuum.
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Seo, Jin Kyo, Jeong Hwan Lee, and Jong Wan Park. "Comparison of Natural Type Ia Diamond and CVD Diamond Films by Photoluminescence." Solid State Phenomena 124-126 (June 2007): 467–70. http://dx.doi.org/10.4028/www.scientific.net/ssp.124-126.467.

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The crystal defects in diamonds are diverse. In other words, there are almost no perfect diamonds without impurities or dislocations. Most natural diamonds contain a considerable amount of nitrogen impurity in aggregated forms. CVD diamond films also included many crystal defects. We investigated the distribution of luminescence center of natural type Ia diamonds and CVD diamond films by various photoluminescence excitation source. Photoluminescence (PL) spectroscopy is a useful technique to provide information on defects of diamond with high sensitivity.
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Polushin, Nikolay Ivanovich, Alexander Ivanovich Laptev, Mariya Stanislavovna Shitareva, Dmitry Sergeevich Muratov, Anatoly Lvovich Maslov, Alexey Nikolaevich Kirichenko, Sergey Alexeevich Perfilov, and Tatiana Vladimirovna Martynova. "The use of spectroscopy methods for structural analysis of CVD diamond films, polycrystalline and single-crystal diamonds." MATEC Web of Conferences 336 (2021): 01013. http://dx.doi.org/10.1051/matecconf/202133601013.

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For the work results correct interpretation, it is important to study initial materials that scientists have to deal with. Currently, there are a large number of different diamond substrates. Comparison of materials among themselves allows you to determine which material you are dealing with. In this work, the methods of infrared (IR) spectrometry, Raman spectroscopy and spectrophotometry are used to study four types of diamond materials: diamond polycrystalline CVD-films; natural single-crystal diamonds; synthetic polycrystalline HPHT-diamonds (such as DSPC – diamond synthetic polycrystal by GOST 9206-80); polycrystalline CVD-diamonds CDM manufactured by E6. In work it was shown that the Raman spectroscopy allows to measure the effect of heat treatment on changes in the diamond structure, even if it is such highly advanced diamond materials as natural diamonds. Heat treatment affects the perfection of diamond crystal structure by reducing stresses and the number of defects in it due to graphitization process. The IR spectrometry method is effective for determining the shape and amount of nitrogen inclusions in diamond structure. To study polycrystalline CVD-films, the spectrophotometry method turned out to be the most effective, because it made possible to determine a small number of nitrogen defects and draw conclusions about the quality of the films. The investigation of polycrystalline diamonds CDM and DSPC demonstrated that, despite their coarse-crystalline structure, diamond crystallites consist of a highly defective diamond phase; in addition, DSPC-diamonds were studied using this method in the first time.
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Karpovich, Z. A., E. I. Zhimulev, and A. I. Chepurov. "Growth Diamond on an Impact Lonsdaleite-bearing Diamond from the Popigai Astrobleme." Bulletin of Irkutsk State University. Series Earth Sciences 38 (2021): 41–53. http://dx.doi.org/10.26516/2073-3402.2021.38.41.

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The Popigai astrobleme contains huge reserves of diamonds with unusual properties. In impact diamonds from the Popigai astrobleme, the cubic phase and lonsdaleite are intergrown. In order to study the relationship of lonsdaleite-bearing impact diamonds with diamond, an experimental study of the features of diamond growth on lonsdaleite-bearing fragments was carried out. The experiments were carried out on a high-pressure apparatus of the “BARS” type at 5.5 GPa and 1450 ° C in the Fe-Ni-C system (nickel 36 wt.%). Impact Popigai diamonds were used as seed crystals. As a result of the study, it was found that the newly formed crystals are represented by a cubic phase, while the lonsdaleite in the seed crystals was preserved and the lonsdaleite / diamond ratio did not change. The newly formed cubic diamond in its main properties (Raman spectra, morphology, color, etc.) corresponds to synthetic diamonds grown in the iron-nickel system. The difference between the growth of crystals on seeds of impact diamonds and growth on a single-crystal seed of diamond was that the nucleation of crystals began from different points of the seed of the impact diamond. Multi-headed growth was observed and, as a result, an intergrowth of diamond crystals was formed. Probably, the initial misorientation of the points of nucleation of subindividuals leads to multi-headed growth of crystals in an intergrowth, in contrast to single-crystal growth of diamond on a single- crystal seed.
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Segl, Jakob, and Christian Edtmaier. "Influence of the Diamond Surface Termination on the Thermal Conductivity of Al/Diamond- and Ag/Diamond MMCs." Materials Science Forum 825-826 (July 2015): 142–49. http://dx.doi.org/10.4028/www.scientific.net/msf.825-826.142.

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MMCs consisting of diamonds and highly conductive metal matrices have been produced via gas pressure assisted liquid metal infiltration and their thermal properties have been investigated. Special attention was paid towards the diamond surface termination and its influence on the diamond-metal-interface and the resulting heat transport across this interface. Altering the diamond terminating surface layer can lead to a rather drastic increase in the thermal conductivity, rendering MMCs with pretreated diamonds double the thermal conductivity of the ones with as-received diamonds. The evolution of those terminating layers with different pretreatment conditions and their influence on the thermal conductivity of the resulting MMCs is rather complex and an ever-growing field of interest for diamond heat sink materials.The observed thermal properties of the MMCs produced in this study will be linked with the established diamond surface termination and will demonstrate the potential that lies within the method of diamond surface modification.
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Valerii, Lavrinenko, Solod Volodymyr, Ilnytska Halina, Smokvyna Volodymyr, and Kashynskiy Ivan. "RESEARCH OF THERMAL INFLUENCE ON THE CHANGE OF THE SURFACE LAYER OF DIAMONDS AND ASSOCIATED TOOL MATERIALS (REVIEW)." Collection of scholarly papers of Dniprovsk State Technical University (Technical Sciences) 2, no. 43 (December 25, 2023): 39–55. http://dx.doi.org/10.31319/2519-2884.43.2023.4.

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Attention is drawn to the fact that the issues of effective processing of such fragile, difficult-to-process materials as mono- and polycrystalline diamonds are currently being discussed in the literature, including CVD diamond films, sapphire, etc. For the most part, such processing is faced with the issues of thermal impact on the surface of the tool material, taking into account the defects of the diamonds that undergo processing, directed impact on the surface of such diamonds, heat and modification of the surface of diamonds and accompanying tool materials. In this review, attention is focused on the newest modern developments, namely 2023, in the features of thermal effects on carbon materials, diamond, and steel. Studies are shown in the direction of directed changes in the surface of diamonds: obtaining the surface of OH-diamonds and H-diamonds, doping diamond, and changing the contact of the diamond surface with Fe and W. Special attention is paid to the application of various protective coatings on the surface of diamonds and related tool materials (steels, ceramics and hard alloys). At the same time, the greatest attention is paid to metal and nitride coatings, that is, this direction has recently become important and relevant. Various models of doped diamond, places of adsorption of O atoms on its various surfaces, and the subsequent process of the reaction of the O2 molecule with the C atom are considered. The results show that the multi-alloy diamond model has the highest activation energy, which reflects the best properties of oxidation resistance. Research shows that diamond with a rough surface has a larger surface area and higher electronegativity than normal diamond, which improves the adhesion between the Ni-based bond and the diamond with a rough surface.
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Dissertations / Theses on the topic "Diamond"

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Spitsyn, Alexey B. "Crystallization of diamond and diamond-like nitride films from gas phase /." free to MU campus, to others for purchase, 2003. http://wwwlib.umi.com/cr/mo/fullcit?p3099640.

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Agahi, Maryam. "Grinding polycrystalline diamond using a diamond grinding wheel." Access electronically, 2006. http://www.library.uow.edu.au/adt-NWU/public/adt-NWU20061114.150854/index.html.

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Newson, Pamela Lynn. "Studies of diamond film formation." Diss., Georgia Institute of Technology, 1997. http://hdl.handle.net/1853/30529.

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Pham, Thanh-Toan. "Mastering the O-diamond/Al2O3 interface for unipolar boron doped diamond field effect transistor." Thesis, Université Grenoble Alpes (ComUE), 2017. http://www.theses.fr/2017GREAT051/document.

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De nos jours, l'effet du réchauffement planétaire devient une question primordiale pour l'humanité. La plupart des sources d'énergie traditionnelles comme l’énergie thermique, le nucléaire, l'hydroélectricité, etc. sont dangereux et/ou potentiellement dangereux pour la nature et l'être humain. Par conséquent, une «énergie verte» est fortement souhaitée. L'énergie verte a deux caractéristiques : d'une part l’utilisation de sources d'énergie renouvelables comme l'énergie solaire ou géothermique, etc au lieu des sources d'énergie traditionnelles, ainsi qu’un meilleur rendement. Un rapport récent a souligné que la perte d'énergie aux États-Unis est plus importante que la somme de toutes les énergies renouvelables générées. Il est donc essentiel d'utiliser efficacement l'électricité et de limiter les pertes. Malheureusement, les pertes sont l'endémie des composants semi-conducteurs, le dispositif central de tout système de conversion de puissance. Le silicium (Si), le matériau le plus utilisé dans les composants semi-conducteurs a atteint sa limite physique. Des semi-conducteurs à large bande interdite tels que SiC, GaN, Ga2O3 et le diamant sont des matériaux prometteurs pour fabriquer des dispositifs à faibles pertes en état ON et avec une tension de claquage à l’état OFF élevée. Parmi eux, le diamant est un semi-conducteur idéal pour les appareils de haute puissance en raison de ses propriétés physiques supérieures aux autres matériaux. Les progrès récents sur ce sujet permettent de considérer le développement de dispositifs de puissance en diamant, par exemple les MOSFETs. Afin de réaliser un MOSFET en diamant semi-conducteur, le nombre de problèmes à surmonter est important, particulièrement maîtriser l'interface diamant/oxyde. Dans ce contexte, G. Chicot et A. Marechal (anciens doctorants de notre groupe) ont introduit les dispositifs de test MOSCAP O-diamant/Al2O3 et montré que l'alignement des bandes est de type I à l'interface O-diamant/Al2O3, ce qui est favorable pour réaliser à la fois un MOSFET à inversion et un MOSFET à déplétion. Ce doctorat s’inscrit dans la suite de ces deux thèses. Il a eu deux objectifs principaux: 1. Les recherches fondamentales, qui se consacrent à la compréhension de la caractéristique électrique d'un dispositif de test de diamant MOSCAP; 2. Partant de la compréhension du MOSCAP, un MOSFET en diamant est réalisé par le contrôle de la conduction de courant volumique. La thèse comprend ainsi trois chapitres : Le chapitre 1 traite du contexte des dispositifs de puissance ainsi que des propriétés physiques du diamant et de l'état de l'art des dispositifs en diamant. Nous introduisons également le principe de fonctionnement d'un dispositif de test MOSCAP idéal et de l'état de l'art des O-diamant MOSCAP. Le chapitre 2 est consacré à la compréhension fondamentale des O-diamant MOS capacités et comprennent trois parties principales: la partie 1 traite des questions de méthodologie liées à la croissance du diamant, le procédé de fabrication et de caractérisation électrique. Nous allons construire un modèle électrostatique empirique pour les MOSCAP O-diamant. La partie 2 discute de l'origine du courant de fuite et de la dispersion de la caractéristique capacitance-fréquence lorsque la MOSCAP est polarisée en négatif. La partie 3 traite de l'origine du courant de fuite et de la dispersion de la caractéristique capacitance-fréquence lorsque la MOSCAP est polarisée en positif. Le chapitre 3 présente notre approche pour réaliser un MOSFET en diamant dopé au Bore. Les performances du transistor et ses paramètres importants seront quantifiées. Le benchmark du dispositif et la projection vers son amélioration seront mentionnés
Nowadays, global warming effect is one of most challenging issue for human being. Most of “traditional energy” sources like thermal power; nuclear power, hydroelectricity power, etc. are dangerous and/or potentially dangerous for nature and human being. Therefore, the "greener energy" is highly desired. The "greener energy" has two folds meaning: on one hand, using renewable energy sources like solar power, wind power or geothermal energy, etc. instead of the traditional energy sources. One another hand, use the electricity more effectively and more efficiency. A recent report has pointed out that the energy loss in US is in fact more than sum of all renewable energy generate in US. Therefore, effectively utilizing electricity and limiting the waste is critical.Unfortunately, losses are the endemic of semiconductor components, the central device of all power conversion system. Silicon (Si), the main material for semiconductor components has reached its physical limit. Wide band-gap semiconductors such as SiC, GaN, Ga2O3 and diamond are promising materials to fabricate the devices low ON-state loss and high OFF-state breakdown voltage. Among them, diamond is an ideal semiconductor for power devices due to its superior physical properties. Recent progresses on diamond technology permits one consider the diamond power devices, e.g. MOSFET.In order to realize a diamond MOSFET by controlled diamond semiconductor, the numbers of issues needed to be overcome is important, especially mastering the diamond/oxide interface. In this context, G. Chicot and A. Marechal (former PhD students in our group) has introduced the O-diamond/Al2O3 MOSCAP test devices and measured the type I band alignment at O-diamond/Al2O3 interface, which is favorable to realize both inversion MOSFET and depletion MOSFET in his PhD these. This PhD project is a continuation of two-mentioned thesis and including two main objects: 1. Fundamental investigations dedicate to understand the electrical characteristic of an O-diamond MOSCAP test device; 2. Realize a unipolar diamond MOSFET by controlling the diamond semiconductor epilayer. The thesis will include three chapters:Chapter 1 discusses the context of power devices as well as the physical properties of diamond and state-of-the-art of diamond devices. We also introduce the working principle of an ideal MOSCAP test device and States-of-the-art of O-diamond MOSCAP test devices.Chapter 2 dedicates for the fundamental understanding O-diamond MOSCAP and include three main parts: Part 1 addresses the methodology issues related to diamond growth, fabrication processing and electrical characterizations. We will construct an empirical electrostatics model for O-diamond MOSCAP. Part 2 discusses the origin of leakage current and capacitance-frequency dependent when O-diamond MOSCAP is biasing in negative direction. We quantify the interface states density at O-diamond/Al2O3 interface by conductance method and the complete electrostatics model for O-diamond/Al2O3 MOSCAP will be constructed. Part 3 discusses the origin of leakage current and the capacitance-frequency dependent when the O-diamond MOS capacitor is biasing in positive direction.Chapter 3 introduces our approach to realize a depletion mode diamond MOSFET. Transistor performance and the important parameters of the transistor will be quantified. The benchmark of the device and the projection towards its improvement will be mentioned
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Crudele, Marc. "Implementation of a fast tool servo with repetitive control for diamond turning." Thesis, Georgia Institute of Technology, 1999. http://hdl.handle.net/1853/17333.

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Traoré, Aboulaye. "High power diamond Schottky diode." Thesis, Grenoble, 2014. http://www.theses.fr/2014GRENT093/document.

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Cette thèse porte sur la fabrication de diodes Schottky sur diamant pour des applications hautes puissances. La croissance du diamant et son dopage sont aujourd'hui bien maîtrisés. La passivation de la surface du diamant (surface à terminaison oxygène) requise pour minimiser les états d'interface et obtenir des contacts redresseurs sur diamant, est également bien maîtrisé. L'apparition des architectures verticales (couche active des diodes épitaxiée sur un substrat de diamant fortement dopée) et pseudo-vertical (épitaxie d'un empilement comprenant la couche active et une couche fortement dopée sur un substrat diamant isolant) ont permis de minimiser la résistance série élevée des diodes sur diamant (énergie d'ionisation élevée des principaux dopants du diamant). Malgré le fait que ces configurations géométriques favorisent courants directs élevés, les performances diodes Schottky verticales ou pseudo verticales sur diamant sont à ce jour limitées par: i) la qualité de la couche active altérée par la propagation de défauts issues de la couche fortement dopée conduisant à de faible champ critiques (environ 3 MV / cm au lieu des 10MV/cm théorique), ii) les contacts Schottky sélectionnés, la stabilité thermique et chimique des interfaces formées avec une surface de diamant à terminaison oxygène. La sélection du métal Schottky et le prétraitement de la surface sont cruciaux pour obtenir de faibles hauteurs barrières (faible chute de tension à l'état passant), une faible densité de défauts au niveau des interfaces (faible courants de fuite), et une interface thermiquement stable (température de fonctionnement élevée). Dans cette thèse, nous avons démontré qu'une diode Schottky diamant pseudo verticale basée sur l'utilisation d'une surface à terminaison oxygène couverte par un métal facilement oxydable comme le zirconium (Zr), et une couche fortement dopée avec une épaisseur optimale, permettent de surmonter ces limitations et de fabriquer des diodes de meilleurs performances que l'état de l'art actuel. Un compromis entre l'épaisseur de la couche fortement dopée et son niveau de dopage à été d'abord établit afin de minimiser la génération de défauts et par conséquent d'améliorer la qualité de la couche active. Le métal (Zr) sélectionné comme contact Schottky donnait lieu à la formation d'une fine couche d'oxyde de zirconium thermiquement stable entre le Zr et le diamant. Les redresseurs fabriqués avaient: une forte densité de courant direct (1000 A par centimètre carré à 6 V), un champ critique supérieur à 7.7 MV /cm (tension de blocage 1000 V avec un courant de fuite inférieur à 1 pA), un facteur de mérite de Baliga supérieur à 244 MW par centimètre carré (la valeur la plus élevée signalée), une bonne reproductibilité indépendamment de la taille des diodes et des échantillons, la possibilité d'obtenir une hauteur de barrière inférieure à 1 eV après recuit, et une stabilité thermique supérieure à 500 ° C
This thesis was focused on high power diamond Schottky diodes fabrication. Diamond growth and its doping are today well mastered. The advent of vertical architectures (diode active layer grown on heavily doped diamond substrate) and pseudo-vertical (stack of diode active layer and heavily doped layer grown on insulating substrate) allowed minimizing the high serial resistance, which was induced by the high ionization energy of acceptor-type dopants (boron doped diamond) preferably used in rectifiers fabrications.Besides these geometrical configurations favoring high forward currents, diamond Schottky diodes (pseudo vertical or vertical structures) were limited by: I) the quality of diode active layer altered by defects propagation from heavily doped layer thus leading to lower blocking voltage (maximum critical field of 3 MV/cm reported) than the theoretical values (theoretical values of critical field of 10 MV/cm), II) Schottky electrodes selected and the thermal and chemical stability of interfaces formed with oxygen-terminated diamond surface (required getting a Schottky contact and reducing as much as possible the interface states). Schottky metal selection and diamond surface pretreatment are crucial to get low barrier heights (low forward voltage drop and so low losses), low defects density at interfaces (low leakage current), and a thermally stable interface (high operating temperature). In this thesis, we demonstrated that a pseudo vertical diamond Schottky diode based on an oxygen-terminated surface covered by an easily oxidizable metal like zirconium (Zr) combined with an optimal heavily doped layer, allows overcoming these limitations. We first found a trade-off between the thickness of heavily doped layer and its doping level in order to minimize defects generations and thus improve the quality of diode active layer grown on the heavily doped layer (Less defects propagations). On a second hand, the Zr metallic electrodes selected gave rise to a thin zirconia interface layer which was thermally stable thus preventing the oxygen layer desorption. Zr/oxidized diamond rectifiers exhibited better features than the current state of art: a high forward current density (1000 A/cm2 at 6 V), a high critical field above 7 MV/cm (1000 V blocking voltage with a leakage current less than 1 pA), a Baliga's power figure of merit above 244 MW/cm2 (the highest value reported), a good reproducibility regardless of diodes and samples, the possibility to get a barrier heights below 1 eV by annealing, and a thermal stability higher than 500°C
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Ma, Kwok Leung. "Nitrogen incorporation in nanocrystalline diamond thin films /." access abstract and table of contents access full-text, 2006. http://libweb.cityu.edu.hk/cgi-bin/ezdb/thesis.pl?mphil-ap-b21471538a.pdf.

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Thesis (M.Phil.)--City University of Hong Kong, 2006.
"Submitted to Department of Physics and Materials Science in partial fulfillment of the requirements for the degree of Master of Philosophy" Includes bibliographical references.
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Hannon, Camille. "Geotectonic controls on primary diamond deposits : a review of exploration criteria." Thesis, Rhodes University, 2013. http://hdl.handle.net/10962/d1007810.

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The origin of diamonds, their preservation and transport to the surface have been important issues over the last decades after the acknowledgement that diamonds are xenocrysts in the host kimberlites and after the discovery of new transport media such as lamproites. Different types of diamonds -E-type diamonds, P-type diamonds- and different types of hosts - Eclogites, Peridotites- have been distinguished. Each type corresponds to particular formation criteria. Ecogitic Diamonds are mostly related to subduction processes, whereas more uncertainties remain regarding the formation of Peridotitic Diamonds. Komatiite extraction and subduction of graphite-bearing serpentinites have been proposed as the more likely processes involved in their formation. A typical mantle signature for diamonds implies a thick, cool, reduced lithosphere. The keel-shape model is the most popular. Archaean cratons are therefore the most promising exploration target and area selection will expect to follow the Clifford's Rule. However, the evidence of cratonic areas hidden under younger formations · through seismic profiles and the discovery of diamond structurally trapped outside their stability field, have increased the potential of diamondiferous areas. Preservation of diamonds inside the lithosphere requires that the mantleroot remains insulated against excessive reheating and tectonic reworking. Mantle-root friendly and mantle-root destructive structures are distinguished. Small-size cratons are usually the most promising exploration targets. Transport of diamonds to the surface is dependant on' the same criteria of preservation. Only kimberlites and lamproites have been recognized as efficient transport media. Their ascent to the surface is conditioned by a multitude of parameters, amongst them the nature of the magma, the speed of ascent, the presence of pre-existing structures in the crust and the availability of ground water in the near-surface environment. The origin of kimberlite magma probably lies near the transition zone. Mixtures of depleted asthenospheric · sources and metasomatically enriched and possibly subducted materials are likely to be at the origin of the different kimberlite magmas. Kimberlite magmatism correlates generally in time with global tectonic events, triggered by either plume activity or by subduction processes, depending of the tectonic school of thought. Kimberlite alignments have been interpreted as hotspot tracks, and kimberlite magmas as volatile-rich melts issued from the remaining plume tail. The plume head produces flood-basalts in an adjacent "thinspot" of the lithosphere, generally on the edges of the cratons. Kimberlite and lamproite ascent to the surface are unconditionally influenced by regional structures. Rift structures, ring structures, transform faults, suture zones and deep-seated faults have been mentioned as controlling or accompanying features of kimberlite magmatism. Nearsurface emplacement constraints are better understood and the ultimate shape of the intrusion(s) depends on the nature of the country rocks, the availability of ground water and the near-surface faulting pattern. The recent discovery of "fissure" kimberlites is one of the more important breakthroughs of the last decade. With a better understanding of the processes involved in diamond formation, preservation and of kimberlite emplacement, major diamond discoveries have recently increased on all the continents. Successful diamond exploration requires today an integration of all geophysical, petrologic, geochemical and structural information available. The particular study of the northwestern Australian lamproite and kimberlite fields, the Brazilian kimberlites, the easternNorth American kimberlite fields, the Lac de Gras kimberlite field, the South African rich kimberlite provinces, and the Yakutian kimberlite fields provide concrete examples of the geotectonic controls on primary diamond deposits. Area selection criteria based on the previous models and examples, are expected to yield to many more discoveries in the coming years.
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Whitehead, Kerryn. "A geochemical study of diamonds from Cullinan diamond mine, South Africa." Master's thesis, University of Cape Town, 2005. http://hdl.handle.net/11427/4231.

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Includes bibliographical references (leaves 142-160).
The Cullinan kimberlite is a Group I kimberlite and is located in the northeastern region of the Kaapvaal Craton, South Africa. The kimberlite pipe has been dated at 1180 ± 30 Ma and intrudes the Bushveld Igneous Complex (2.05 Ga). This study explores the geochemistry of a suite of one hundred selected diamonds and their associated mineral inclusions. The majority of the diamonds described here are peridotitic (94%) and the remainder are eclogitic. The peridotic inclusions may be further subdivided into harzburgitic and lherzolitic parageneses.
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Chen, Yu-Chun Wilamowski Bogdan M. Tzeng Y. "Diamond chemical vapor deposition and practical applications." Auburn, Ala., 2009. http://hdl.handle.net/10415/1774.

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Books on the topic "Diamond"

1

Hart, Matthew. Diamond. Toronto: Viking, 2001.

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NATO Advanced Study Institute on Diamond and Diamond-like Films and Coatings (1990 Castelvecchio Pascoli, Italy). Diamond and diamond-like films and coatings. New York: Plenum Press, 1991.

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Barnard, A. S. The diamond formula: Diamond synthesis--a gemmological perspective. Oxford: Butterworth-Heinemann, 2000.

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Universities' Carbon Films and Materials Group., ed. Diamond growth and films. London: Elsevier Applied Science, 1989.

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V, Stefan, and Prokhorov A. M. 1916-, eds. Diamond science and technology. 2nd ed. La Jolla, CA: Stefan University Press, 2002.

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Donnelly, Jane. Diamond cut diamond. Bath, England: Chivers Press, 1991.

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Patch, Susanne Steinem. Blue mystery: The story of the Hope diamond. [Washington, D.C.]: Abrams, 1999.

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International Symposium on Diamond and Diamond-Like Films (1st 1989 Los Angeles). Proceedings of the First International Symposium on Diamond and Diamond-Like Films. Pennington, NJ: Electrochemical Society, 1989.

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1953-, Prelas Mark Antonio, Popovici Galina 1940-, and Bigelow Louis K. 1941-, eds. Handbook of industrial diamonds and diamond films. New York: Marcel Dekker, 1998.

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Ohlupin, Dmitriy, Al'bert Korolev, and Il'ya Sinev. Mechanochemical method of polishing a polycrystalline diamond coating. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1141765.

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The monograph presents a solution to the technological problem of polishing a polycrystalline diamond coating by a mechanochemical method in order to ensure the required surface roughness and high processing performance. The analysis of existing schemes and methods of polishing diamonds and diamond coatings is carried out. A technology for polishing diamond coatings with a metal brush is proposed, which provides brittle destruction of the vertices of large micro-roughnesses and graphitization of small micro-roughnesses. For researchers, postgraduates and specialists of industrial enterprises involved in the technology of polishing the surfaces of parts.
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Book chapters on the topic "Diamond"

1

Siegel, Dina. "Conflict Diamonds? Not Every Diamond Is a Blood Diamond." In The Mazzel Ritual, 133–57. New York, NY: Springer US, 2009. http://dx.doi.org/10.1007/978-0-387-95960-3_7.

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Höhne, Uwe. "Diamond." In Informatik — Wirtschaft — Gesellschaft, 130–37. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993. http://dx.doi.org/10.1007/978-3-642-78486-6_17.

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Baker, Ian. "Diamond." In Fifty Materials That Make the World, 55–58. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-78766-4_11.

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Sein, H., C. Maryan, A. Jones, J. Verran, N. Ali, I. U. Hassan, C. Rego, W. Ahmed, and M. J. Jackson. "Diamond." In Surgical Tools and Medical Devices, 149–94. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-33489-9_7.

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Collins, Jeffrey. "Diamond." In Case Studies in Parametric Design, 214–37. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003299417-9.

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Khalaj, Zahra, Mahmood Ghoranneviss, Elnaz Vaghri, and Oana Ponta. "Diamond and Diamond-Like Carbon." In Diamond and Related Nanostructures, 29–47. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-94-007-6371-5_2.

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Akulov, Nikolay. "GENETIC TYPES OF DIAMOND-BEARING ROCKS." In TESTING OF SEDIMENTARY DEPOSITS AT DIAMOND SEARCHING WORKS, 18–33. au: AUS PUBLISHERS, 2022. http://dx.doi.org/10.26526/chapter_62021f6265f5d2.81992926.

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The book contains materials on the search for modern and buried alluvial and primary deposits of diamonds. Much attention is paid to prospecting testing of potentially diamondiferous deposits and provides information on all types of diamondiferous rocks currently known. It is addressed primarily to young geologists who have embarked on a search for diamond deposits. It will find the answer to many questions by many geologists, prospectors and prospectors, leading the search for gold and diamonds. While this information product, for the most part, is in the public domain, it also may contain copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner.
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Mackenzie, Simon. "Diamond Trafficking." In Transnational Criminology, 71–88. Policy Press, 2020. http://dx.doi.org/10.1332/policypress/9781529203783.003.0005.

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This chapter addresses diamond trafficking in four sections: the nature and extent of the harm; the structure of diamond trafficking (considered in terms of source, transit and demand); regulation and control; and finally a discussion about diamond trafficking as illicit business enterprise. The controversy around conflict diamonds is reviewed, along with the routines of mining, trafficking, refining and the marketplace. The changing nature of the international diamond market is noted, and the Kimberley Process Certification Scheme is discussed along with its critics. In the final section, we consider the symbolic nature of diamonds and the ideological work that has gone into creating this symbolism. Reports from brokers and traffickers in the diamond market are referred to in support of the proposition that diamond trafficking is framed by participants as ‘just business’.
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Scholze, Peter, and Jared Weinstein. "Drinfeld’s lemma for diamonds." In Berkeley Lectures on p-adic Geometry, 140–48. Princeton University Press, 2020. http://dx.doi.org/10.23943/princeton/9780691202082.003.0016.

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This chapter addresses Drinfeld's lemma for diamonds. It proves a local analogue of Drinfeld's lemma, thereby giving a first nontrivial argument involving diamonds. This lecture is entirely about fundamental groups. A diamond is defined to be connected if it is not the disjoint union of two open subsheaves. For a connected diamond, finite étale covers form a Galois category. As such, for a geometric point, one can define a profinite group, such that finite sets are equivalent to finite étale covers. In this proof, the chapter uses the formalism of diamonds rather heavily to transport finite étale maps between different presentations of a diamond as the diamond of an analytic adic space.
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Gielisse, Peter J. "Mechanical Properties of Diamond, Diamond Films, Diamond-Like Carbon and Like-Diamond Materials." In Handbook of Industrial Diamonds and Diamond Films, 49–88. CRC Press, 2018. http://dx.doi.org/10.1201/9780203752807-3.

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Conference papers on the topic "Diamond"

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Tillmann, W., and A. Brinkhoff. "Influence of Spraying Parameters on the Diamond Decomposition of HVOF-sprayed Nickel-Diamond Coatings." In ITSC2018, edited by F. Azarmi, K. Balani, H. Li, T. Eden, K. Shinoda, T. Hussain, F. L. Toma, Y. C. Lau, and J. Veilleux. ASM International, 2018. http://dx.doi.org/10.31399/asm.cp.itsc2018p0799.

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Abstract Diamond is the hardest known material and hence is suitable for a large, diverse field of applications for industrial processing tools. Different types of diamonds are used for these tools. For example, large diamonds are frequently used to industrially process minerals, while fine diamonds are used to process glass or carbon fibre reinforced plastic, as well as for grinding and lapping processes. A major challenge when processing diamonds is the process temperature as diamonds show decomposition effects at higher temperatures. Thermally spraying processes, which have the advantage of having only a small thermal influence on diamonds due to the short dwelling time of the particles in the flame, are going to be investigated as an alternative processing method for diamond-reinforced coatings. Additionally, these processes are flexible regarding the application process of contour accurate coatings. This paper gives an insight into the relationship between spray process parameters and the diamond decomposition concerning the particle temperature during the spraying process. For this purpose, the process parameters are varied and the resulting coatings are characterized, analyzing their influence on the diamonds in the coating. One focus of this paper is the scanning electron microscopical investigation of a thermally induced carbonating of the diamonds.
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Na, H., G. Bae, S. Yoon, C. Lee, and H. J. Kim. "Improved Deposition Characteristics of Diamond Enhanced by Plastically Deformed Nickel Layer in Kinetic Sprayed Bronze-Diamond Composite Coating." In ITSC2009, edited by B. R. Marple, M. M. Hyland, Y. C. Lau, C. J. Li, R. S. Lima, and G. Montavon. ASM International, 2009. http://dx.doi.org/10.31399/asm.cp.itsc2009p0255.

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Abstract This study compares the deposition behavior of kinetic sprayed bronze-diamond composite coatings produced using different mixtures of helium and nitrogen gas. To determine impact properties of the diamond particles, bare and nickel-coated diamonds are deposited on bronze layers and the effects of plastic deformation are examined using SEM and finite-element analysis. The results indicate that the deposition efficiency of diamond is determined by several factors and depends more on the angle and shape of the diamond particles than on the deformation properties of the bronze matrix.
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Kawano, Toru, and Hisamatsu Nakano. "Diamond array of diamond elements." In 2016 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC. IEEE, 2016. http://dx.doi.org/10.1109/apwc.2016.7738103.

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Jackson, Mark J., Waqar Ahmed, Robert Woodwards, and Htet Sein. "Wear of Dental Cutting Tools Coated With Nanocrystalline Diamond Coatings." In World Tribology Congress III. ASMEDC, 2005. http://dx.doi.org/10.1115/wtc2005-63922.

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Dental cutting tools have traditionally been made using resin-bonded diamonds that have a tendency to breakdown during drilling operations with the consequent loss of diamonds and resin binder into the patient’s mouth. Recent developments in chemical vapor deposition have made it possible to create binderless diamond cutting tools that are useful for machining and drilling enamel, dentine, amalgam, and cast alloys used for crowns and bridges. The paper compares newly developed tools with conventional tools that are used for orthodontic and maxillofacial operations. The reduction in wear using coated diamond tools is significant.
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Yaneva, Mariya Zdravkova. "Sparkling treasures. Unveiling the facets of the diamond trade." In International Scientific-Practical Conference "Economic growth in the conditions of globalization". National Institute for Economic Research, 2023. http://dx.doi.org/10.36004/nier.cecg.iii.2023.17.28.

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The value of this noble metal is enduring on both national and international levels. The diamond industry is within the purview of economic agents, and their investment interest on the stock markets is continuous and lasting. Diamonds are precious metals with a transparent and sparkling appearance, exceptionally beautiful, captivating the minds and dreams of people from ancient times to the present day. They are natural treasures extracted from the depths of the Earth and formed over centuries. In society, these noble crystals symbolize power, wealth, and influence. In this context, the subject of the current scientific research is diamonds as a type of noble metal. The aim of the scientific study is to analyze relevant aspects related to the global diamond trade.
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Funkenbusch, P. D., Y. Y. Zhou, C. Lohnes, D. J. Quesnel, S. D. Jacobs, B. E. Puchebner, D. Golini, and A. Lindquist. "Deterministic microgrinding of glass with polycrystalline diamond tools." In Optical Fabrication and Testing. Washington, D.C.: Optica Publishing Group, 1994. http://dx.doi.org/10.1364/oft.1994.omc3.

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Metal bonded diamond tools have been used at the Center for Optics Manufacturing (COM) for the deterministic microgrinding of glass. With use of metal-bonded 2-4 micron single crystal diamonds in the final grinding step, very smooth surfaces with only a few microns of subsurface damage can be consistently manufactured. While these results are very positive, we are currently seeking means to further improve performance. In particular we are examining the effects of changing the diamond on tool performance.
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Barclay, Paul. "Diamond nano-optomechanical devices." In Diamond Photonics - Physics, Technologies and Applications. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/dp.2019.127.

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Vuckovic, Jelena, Constantin Dory, Shuo Sun, Alison Rugar, Daniil Lukin, Melissa Guidry, and Sattwik Deb Mishra. "Optimized diamond quantum photonics." In Diamond Photonics - Physics, Technologies and Applications. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/dp.2019.8.

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Wildi, Thibault, Marcell Kiss, and Niels Quack. "Diamond Diffractive Beam Shapers." In Diamond Photonics - Physics, Technologies and Applications. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/dp.2019.80.

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Gruhler, Nico, Maik Stappers, and Wolfram Pernice. "Chipscale diamond nanophotonic circuits." In Diamond Photonics - Physics, Technologies and Applications. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/dp.2019.46.

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Reports on the topic "Diamond"

1

Iushkina, Nadezhda. Diamonds and innovations. Intellectual Archive, September 2023. http://dx.doi.org/10.32370/iaj.2945.

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This article delves into the latest trends in the use of diamonds, such as diamond deposition and the creation of diamond films. It also explores the prospects for further research and application of diamonds in various fields. Additionally, we'll share stories of how diamonds have inspired artists, designers, and creative individuals. In the new era, diamonds remain not only a symbol of luxury but also a source of incredible innovations. Their unique properties stimulate the development of new technologies and open up exciting prospects for science and industry. In this chapter, we will examine some specific examples and developments that showcase the potential of diamonds in this new epoch. Diamonds are used in the development of high-efficiency solar cells. Thin diamond films can enhance the light-collecting properties of solar panels, increasing their efficiency in converting solar energy into electricity. Solar energy is becoming an increasingly attractive source of renewable energy, and the search for efficient methods of harvesting and converting it continues. In this context, diamonds play a crucial role in the development of high-efficiency solar cells capable of maximizing the conversion of sunlight into electricity.
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Foreman, L. R., R. S. Barbero, D. W. Carroll, T. Archuleta, J. Baker, D. Devlin, J. Duke, D. Loemier, and M. Trukla. Diamond and Diamond-Like Materials as Hydrogen Isotope Barriers. Office of Scientific and Technical Information (OSTI), July 1999. http://dx.doi.org/10.2172/759179.

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Kjarsgaard, B. A. Kimberlite-hosted diamond. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1995. http://dx.doi.org/10.4095/208034.

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Kjarsgaard, B. A. Lamproite-hosted diamond. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1995. http://dx.doi.org/10.4095/208036.

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Lin, Shu Hwa, and Liezel Pagala. Diamond Cut Dress. Ames: Iowa State University, Digital Repository, September 2016. http://dx.doi.org/10.31274/itaa_proceedings-180814-1609.

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Markunas, R. J., R. A. Rudder, J. B. Posthill, R. E. Thomas, and G. Hudson. Heteroepitaxial Diamond Growth. Fort Belvoir, VA: Defense Technical Information Center, September 1995. http://dx.doi.org/10.21236/ada298591.

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Markunas, R. J., R. A. Rudder, J. B. Posthill, R. E. Thomas, and G. Hudson. Heteroepitaxial Diamond Growth. Fort Belvoir, VA: Defense Technical Information Center, September 1995. http://dx.doi.org/10.21236/ada298592.

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Gleason, Karen K. Artifact Diamond Characterization. Fort Belvoir, VA: Defense Technical Information Center, January 1991. http://dx.doi.org/10.21236/ada231555.

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Markunas, R. J., R. A. Rudder, J. B. Posthill, and R. E. Thomas. Semiconductor Diamond Technology. Fort Belvoir, VA: Defense Technical Information Center, March 1991. http://dx.doi.org/10.21236/ada233293.

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Krstulic, J. F. Diamond Measuring Machine. Office of Scientific and Technical Information (OSTI), January 2000. http://dx.doi.org/10.2172/750426.

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