Relevant bibliographies by topics / Diamond laser

Academic literature on the topic 'Diamond laser'

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Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "Diamond laser"

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Oleynichuk E. A., Danilov P. A., Lednev V. N., Sdvizhenskii P. A., Kuznetsov M. S., Tarelkin S. A., Bondarenko M. G., and Khmelnitsky R. A. "Laser-induced luminescence of boron-doped synthetic diamond at various laser pulse durations." Optics and Spectroscopy 130, no. 4 (2022): 381. http://dx.doi.org/10.21883/eos.2022.04.53721.47-21.

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Excitation of type IIb synthetic diamond by ultrashort laser pulses in the visible range causes broadband luminescence in the UV visible range; the observed luminescence band can be attributed to the A band characteristic of diamonds. The photoluminescence spectra were obtained at different laser pulse durations (0.3-6.2 ps) depending on the pulse energy. A nonlinear dependence of the luminescence yield on the intensity of ultrashort pulses is established. Keywords: broadband luminescence, boron doped diamond, two-photon luminescence, A-band.
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Li, Zeng Qiang, Qi Wu, and Jun Wang. "Ultrashort Pulsed Laser Micromachining of Polycrystalline Diamond." Advanced Materials Research 497 (April 2012): 220–24. http://dx.doi.org/10.4028/www.scientific.net/amr.497.220.

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A femtosecond pulsed Nd:YAG laser was used to micromachine polycrystalline diamonds (PCD) and study the ablated microstructure characteristics under different irradiation parameters. With high laser intensity and low traverse speed, a micro cone with very smooth surface and clear edge can be obtained. There was almost no recast layer around the cone and no phase transition on the ablated surfaces was found. By contrast, the use of low laser intensity and high traverse speed could ablate only the grain boundaries without any damage to the diamond grits. These results suggest a need for further research in femtosecond laser micromachining of PCD for potential applications in fabricating new types of micro grinding wheels or diamond pencils.
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Wu, Qi, and Jun Wang. "Development in Laser Polishing of Polycrystalline Diamond Tools." Advanced Materials Research 135 (October 2010): 1–6. http://dx.doi.org/10.4028/www.scientific.net/amr.135.1.

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Laser polishing is a surface finishing technology for polycrystalline diamond (PCD) tools by removing uneven diamond particles from the diamond film through graphitization, melting and sublimation. While various types of lasers are used for the polishing of PCD tools, pulsed excimer and Nd: YAG lasers are among the most commonly used ones. The current development in laser polishing of PCD tools is reviewed. The reported experimental and modelling studies to improve the process performance are discussed. It reveals that there is a severe dearth of understanding of the process and the associated models for the efficient and effective use of the technology. The direction of future research in laser polishing is finally discussed.
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Khomich, Andrey A., Vitali Kononenko, Oleg Kudryavtsev, Evgeny Zavedeev, and Alexander V. Khomich. "Raman Study of the Diamond to Graphite Transition Induced by the Single Femtosecond Laser Pulse on the (111) Face." Nanomaterials 13, no. 1 (December 29, 2022): 162. http://dx.doi.org/10.3390/nano13010162.

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The use of the ultrafast pulse is the current trend in laser processing many materials, including diamonds. Recently, the orientation of the irradiated crystal face was shown to play a crucial role in the diamond to graphite transition process. Here, we develop this approach and explore the nanostructure of the sp2 phase, and the structural perfection of the graphite produced. The single pulse of the third harmonic of a Ti:sapphire laser (100 fs, 266 nm) was used to study the process of producing highly oriented graphite (HOG) layers on the (111) surface of a diamond monocrystal. The laser fluence dependence on ablated crater depth was analyzed, and three different regimes of laser-induced diamond graphitization are discussed, namely: nonablative graphitization, customary ablative graphitization, and bulk graphitization. The structure of the graphitized material was investigated by confocal Raman spectroscopy. A clear correlation was found between laser ablation regimes and sp2 phase structure. The main types of structural defects that disrupt the HOG formation both at low and high laser fluencies were determined by Raman spectroscopy. The patterns revealed give optimal laser fluence for the production of perfect graphite spots on the diamond surface.
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Minbaeva, B. D., and K. Khaidarov. "PHASE COMPOSITION AND STRUCTURE OF CARBONADO DIAMOND POLYCRYSTALS AFTER LASER TREATMENT." Herald of KSUCTA n a N Isanov, no. 2-2-2022 (April 30, 2022): 740–44. http://dx.doi.org/10.35803/1694-5298.2022.2.740-744.

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Synthetic polycrystalline diamonds are mainly composed of inclusions of graphite and a catalyst metal (Me). The presence of these inclusions and their amount significantly affects many of the physical and mechanical properties of diamonds and, ultimately, the performance of diamonds in a tool. Therefore, the study of the quantitative phase composition of synthetic diamonds (SD) is very important. The paper considers the change in the period of the crystal lattice of SD polycrystals and nickel (Ni) impurities after exposure to laser radiation with a wavelength of 1.06 μm. The time of laser irradiation varied from 3 to 60 sec. To determine the crystal lattice period of SA polycrystals, powders with a grain size of 315/250, 200/160, and 100/80 μm were used. A decrease in the crystal lattice period of the studied diamonds was found. We assume that this is due to the diffusion process of ordering of the diamond lattice, when the metal-enriched sections of the diamond-metal-catalyst system are locally heated. The results obtained will make it possible to understand the physical mechanism for increasing the strength of the studied crystals after exposure to laser beams under certain conditions.
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Spierings, Adriaan Bernardus, Christian Leinenbach, Christoph Kenel, and Konrad Wegener. "Processing of metal-diamond-composites using selective laser melting." Rapid Prototyping Journal 21, no. 2 (March 16, 2015): 130–36. http://dx.doi.org/10.1108/rpj-11-2014-0156.

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Purpose – The purpose of this paper is a feasibility study that was performed to investigate the basic processability of a diamond-containing metal matrix. Powder-bed-based additive manufacturing processes such as selective laser melting (SLM) offer a huge degree of freedom, both in terms of part design and material options. In that respect, mixtures of different powders can offer new ways for the manufacture of materials with tailored properties for special applications such as metal-based cutting or grinding tools with incorporated hard phases. Design/methodology/approach – A two-step approach was used to first investigate the basic SLM-processability of a Cu-Sn-Ti-Zr alloy, which is usually used for the active brazing of ceramics and superhard materials. After the identification of a suitable processing window, the processing parameters were then applied to a mixture of this matrix material with 10-20 volume per cent artificial, Ni-coated mono-crystalline diamonds. Findings – Even though the processing parameters were not yet optimized, stable specimens out of the matrix material could be produced. Also, diamond-containing mixtures with the matrix material resulted in stable specimens, where the diamonds survived the layer-wise build process with the successive heat input, as almost no graphitization was observed. The diamond particles are fully embedded in the Cu-Sn-Ti-Zr matrix material. The outer part of the diamonds partly dissolves in the matrix during the SLM process, forming small TiC particles and most likely a thin TiC layer around the diamond particles. Originality/value – The feasibility study approved the SLM processing capabilities of a metal-diamond composite. Although some cracking phenomena sill occur, this seems to be an interesting and promising way to create new abrasive tools with added value in terms of internal and local lubrication supply, tooling temperature control and improved tooling durability.
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Davanloo, F., E. M. Juengerman, D. R. Jander, T. J. Lee, and C. B. Collins. "Laser plasma diamond." Journal of Materials Research 5, no. 11 (November 1990): 2398–404. http://dx.doi.org/10.1557/jmr.1990.2398.

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Diamond-like films containing no hydrogen can be deposited from laser plasmas that are highly ionized. Growth rates of 0.5 μm/h over 100 cm2 areas have been realized on untreated substrates of a variety of materials including Si, Ge, ZnS, glass, and plastics. Measurements of optical properties and mass densities support the identification of this laser plasma diamond as a conglomerate of very fine grains of diamond polytypes in a matrix of other carbon forms.
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Lubbe, A. J. "Die optimisering van die snyproses van diamante met behulp van ’n YAG - laser." Suid-Afrikaanse Tydskrif vir Natuurwetenskap en Tegnologie 12, no. 4 (July 9, 1993): 83–88. http://dx.doi.org/10.4102/satnt.v12i4.569.

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A laser cannot, as generally assumed by the layman, cut right through a diamond with a single cut. A couple of hundred cuts may be necessary to "chip carve" through a diamond. There are several parameters, for example cutting speed, focus point, overlapping of cuts, etc., that influence the cutting process. With a view to optimizing the cutting process, laser cuts in diamonds were studied in a systematic way with the aid of an electron microscope. The method, technique and the results of the research are discussed in this article.
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Akesh Kumar, G., N. Prabavathy, and Laxmidhar Biswal. "Raman Photoluminescence - An Efficient way to distinguish Natural diamonds and Lab Grown diamonds." IOP Conference Series: Materials Science and Engineering 1225, no. 1 (February 1, 2022): 012023. http://dx.doi.org/10.1088/1757-899x/1225/1/012023.

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Abstract The advancements in Science and Technology introduced Lab grown diamonds (LGDs) that meet with diverse applications. The LGD’s possess similar electrical, optical and mechanical characteristics compared to natural diamonds mined from earth. There is a possibility of LGDs infiltration in the Natural diamond pipeline in the jewellery industry. Hence, it becomes crucial to detect LGDs. The present article illustrates the importance of Raman Photoluminescence over absorption spectroscopy and Fluorescence/Phosphorescence imaging for identification of diamond nature. In the current work, a single Laser source of 532 nm was used to obtain the distinct molecular information of Natural diamonds and Lab Grown diamonds.
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Kononenko, Vitali V., Maxim S. Komlenok, Pavel A. Chizhov, Vladimir V. Bukin, Vladislava V. Bulgakova, Andrey A. Khomich, Andrey P. Bolshakov, Vitaly I. Konov, and Sergey V. Garnov. "Efficiency of Photoconductive Terahertz Generation in Nitrogen-Doped Diamonds." Photonics 9, no. 1 (December 29, 2021): 18. http://dx.doi.org/10.3390/photonics9010018.

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The efficiency of the generation of terahertz radiation from nitrogen-doped (∼0.1–100 ppm) diamonds was investigated. The synthetic polycrystalline and monocrystalline diamond substrates were pumped by a 400 nm femtosecond laser and tested for the photoconductive emitter operation. The dependency of the emitted THz power on the intensity of the optical excitation was measured. The nitrogen concentrations of the diamonds involved were measured from the optical absorbance, which was found to crucially depend on the synthesis technique. The observed correlation between the doping level and the level of the performance of diamond-based antennas demonstrates the prospects of doped diamond as a material for highly efficient large-aperture photoconductive antennas.
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Dissertations / Theses on the topic "Diamond laser"

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Neff, Clayton. "Mechanical Properties of Laser-Sintered-Nylon Diamond Lattices." Scholar Commons, 2015. http://scholarcommons.usf.edu/etd/6001.

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Additive manufacturing offers a manufacturing technique to produce complex geometry prototypes at a rapid pace and low cost. These advantages advocate additive manufacturing for the design and production of cellular structures. Cellular structures are interesting because they contain a large amount of porosity (void space of air) to manifest a lightweight structure. Designs of cellular structures generate a periodic pattern; often of complex geometry, called a lattice. There has been a significant amount of research to maximize specific stiffness of lattice structures but little to evaluate low-stiffness lattices. Low-stiffness structures benefit energy absorbance through bending of the lattice. This research seeks to assess diamond lattices as low stiffness, bending structures. The research involves PA2200 (Nylon 12) laser sintered diamond lattices with experimental compression testing and direct FEA model comparison. A correction factor is applied for a design offset of laser sintered lattices. Once applied, the experimental and FEA data agree in validating the diamond lattice as a bending-dominated structure. Diamond lattices show a 4th order relationship between stiffness and parameters of thickness and unit cell length. For density, stiffness maintains a 2nd order relationship, as predicted by bending dominated structures. The resulting stiffness can be tuned over a stiffness range of four orders of magnitude. Further research shows the results for modifying the diamond lattice and scaling stiffness and density using other materials (like metals) to expand the range of stiffness and compare diamond lattices on material property charts. Lastly, the effective Poisson’s ratio varies from 0.5 to 0.4 depending on the (t/L) ratio.
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Chen, Yu-Chen. "Laser writing of coherent colour centres in diamond." Thesis, University of Oxford, 2017. https://ora.ox.ac.uk/objects/uuid:1b9fc247-3e35-457e-bfa5-d4ca474ac1ff.

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Optical active point defects in crystals have gained widespread attention as photonic systems that could be applied in quantum information technologies[1, 2]. However, challenges remain in the placing of individual defects at desired locations, an essential element of device fabrication. Here we report the controlled generation of single negatively charged nitrogen-vacancy (NV-) centres in diamond using laser writing[3]. Aberration correction in the writing optics allows precise positioning of the vacancies within the diamond crystal and subsequent annealing produces single NV- centres with a probability of success of up to 45%, located within about 200nm of the desired position in the transverse plane. A simple model was established to understand the mechanism of vacancies generation and estimate the success probability of NV- centres generation. Selected NV- centres display stable, coherent optical transitions at cryogenic temperatures, a prerequisite for the creation of distributed quantum networks of solid-state qubits. Strain measurement results of selected NV- centres show that the broadening of NV- optical transitions is due to local strain. The results illustrate the potential of laser writing as a tool for defect engineering in quantum technologies and extend laser processing to the single-defect domain.
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Sharkey, Leo R. "Polishing of diamond films using an excimer laser." Connect to resource, 1996. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1192573096.

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Wills, Jonathan B. "Laser diagnostics of chemical vapour deposition of diamond films." Thesis, University of Bristol, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.251103.

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Gottimukkala, Roja. "Growth and characterization of diamond and diamond like carbon films with interlayer." [Tampa, Fla] : University of South Florida, 2005. http://purl.fcla.edu/usf/dc/et/SFE0001405.

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Lamprecht, GH, HGC Human, and LW Snyman. "Detection of diamond in ore using pulsed laser Raman spectroscopy." Elsevier, 2007. http://encore.tut.ac.za/iii/cpro/DigitalItemViewPage.external?sp=1000795.

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The viability of using pulsed laser excited Raman spectroscopy as a method for diamond detection from ore, has been investigated. In this method the spontaneous Stokes Raman signal is used as indicator of diamond, and a dual channel system is necessary for correcting for fluorescence of minerals and diamond itself. Various pulsed laser wavelengths from 266 to 1064nm were used, as well as cw lasers for comparison. Wavelength scans of the regions of interest, indicated that pulsed lasers at 532, 355 and 308nm may be used with confidence for this purpose. Mineral fluorescence did not appear to pose a threat to the method, but rather own fluorescence of some types of diamonds. In this respect, pulsed lasers offer a decided advantage above cw, due to nonlinear increase of fluorescence with laser power, resulting in superior Raman to fluorescence signal ratios. An apparatus constructed for discriminating diamond from ore was evaluated, and using minerals commonly occurring in diamond carrying ore as well as a wide variety of diamonds, it proved to function effectively. A significant improvement in the capability for diamond detection was found when pulsed lasers at 532 and 308nm were used, in comparison to the 532nm cw laser.
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Lamprecht, GH, HGC Human, and LW Snyman. "Detection of diamond in ore using pulsed laser Raman spectroscopy." Elsevier, 2006. http://encore.tut.ac.za/iii/cpro/DigitalItemViewPage.external?sp=1000856.

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The viability of using pulsed laser excited Raman spectroscopy as a method for diamond detection from ore, has been investigated. In this method the spontaneous Stokes Raman signal is used as indicator of diamond, and a dual channel system is necessary for correcting for fluorescence of minerals and diamond itself. Various pulsed laser wavelengths from 266 to 1064nm were used, as well as cw lasers for comparison. Wavelength scans of the regions of interest, indicated that pulsed lasers at 532, 355 and 308nm may be used with confidence for this purpose. Mineral fluorescence did not appear to pose a threat to the method, but rather own fluorescence of some types of diamonds. In this respect, pulsed lasers offer a decided advantage above cw, due to nonlinear increase of fluorescence with laser power, resulting in superior Raman to fluorescence signal ratios. An apparatus constructed for discriminating diamond from ore was evaluated, and using minerals commonly occurring in diamond carrying ore as well as a wide variety of diamonds, it proved to function effectively. A significant improvement in the capability for diamond detection was found when pulsed lasers at 532 and 308nm were used, in comparison to the 532nm cw laser.
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Rebello, Jagdish Hilary Diago. "Synthesis of Diamond by Selective Laser Excitation of Gaseous Precursors /." The Ohio State University, 1995. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487928649986997.

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Williams, Themistoklis. "Development of the diamond detector based real-time monitoring system for the ELI-NP gamma beam source." Thesis, Université Paris-Saclay (ComUE), 2018. http://www.theses.fr/2018SACLS277/document.

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Cette thèse présente le développement d'un système de contrôle en temps réel basé sur un détecteur en diamant pour la nouvelle source de rayons gamma en cours de construction à Magurele, en Roumanie, pour le projet Extreme Light Infrastructure (ELI). La machine comprend un accélérateur linéaire d'électrons qui se sépare en deux lignes, une à basse énergie entre 80 et 320 MeV et l'autre à plus haute énergie pouvant atteindre 720 MeV. Sur les deux lignes, un recirculateur optique guide un laser haute puissance pour entrer en collision avec 32 paquets d'électrons afin de produire des rayons gamma par interaction Compton inverse. Cette machine est construite par le consortium européen EuroGammaS, dont le Laboratoire de l'Accélérateur Linéaire fait partie et qui a pour mission de développer la plupart des composants optiques. C'est aussi là où j'ai préparé le travail présenté dans ce manuscrit. Les paquets d'électrons séparés de 16 ns collisionneront avec une impulsion laser à une fréquence de 100 Hz. Pour s'assurer de la qualité et de la stabilité de ces interactions, le système du détecteur diamant a été mis en place. Cela a impliqué du travail de simulation sous GEANT4 ainsi que des expériences pour tester l'équipement à HiGS aux Etats-Unis et à newSubaru au Japon, deux établissements scientifiques qui proposent aussi des sources de rayons gamma produits par interaction Compton inverse. Les résultats obtenus démontrent l'efficacité de ce système en analysant l'efficacité de détection, la charge collectée ou encore la forme de faisceau. Ceci est encourageant en vue de l'installation et du commissioning qui sont attendus pour 2019
This thesis discusses the development of a real-time monitoring system based on a diamond detector for the new gamma source being built in Magurele, Romania as part of the Extreme Light Infrastructure (ELI) project. The machine consists of an electron linear accelerator that branches into two lines, one at low energy between 80 and 320 MeV and one at higher energy going up to 720 MeV. On both lines, an optical recirculator leads a high power laser to collide with 32 electrons bunches to produce gamma rays by inverse Compton interaction. This machine is built by a European consortium named EuroGammaS, of which the "Laboratoire de l'Accélérateur Linéaire" is a member and tasked with developing most of the optical components. This is where I prepared the work presented in this manuscript. The electron bunches separated by 16 ns will collide with a circulating laser pulse at a rate of 100 Hz. To monitor the quality and stability of these interactions, the diamond detector system has been set-up. This involved simulation work on GEANT4 as well as two experiments to test the equipment at HiGS in the USA and newSubaru in Japan, two facilities that also offer gamma ray beams produced by inverse Compton scattering. The results obtained demonstrate the effectiveness of the system by analysing detection efficiency, charge collected or beam shape. This is promising in anticipation of the installation and commissioning expected for 2019
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Lade, Robert James. "Pulsed ultraviolet laser ablation of carbon containing targets." Thesis, University of Bristol, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.302156.

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Books on the topic "Diamond laser"

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Canada, Atomic Energy of. Laser plasma generation of hydrogen-free diamond-like carbon thin films on ZR-2.5Nb CANDU pressure tube materials and silicon wafers with a pulsed high-power CO 2 laser. Chalk River, Ont: Chalk River Nuclear Laboratories, 1995.

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Mitsubishi & Diamond Star performance tuning: A hands-on guide for building the ultimate high-performance Mitsubishi Eclipse, Eagle Talon or Plymouth Laser : all makes and models, 1990-1999. New York: HPBOOKS, 2007.

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(Editor), V. Stefan, and A. M. Prokhorov (Editor), eds. Diamond Science and Technology, Vol. 2: Laser Diamond Interaction, Plasma Diamond Reactors (Stefan University Press Series on Frontiers in Science and Technology). 2nd ed. Stefan University Press, 1999.

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A, Ebrahim N., Atomic Energy of Canada Limited., and Chalk River Laboratories. Accelerator Physics Branch., eds. Laser plasma generation of hydrogen-free diamond-like carbon thin films on Zr-2.5Nb CANDU pressure tube materials and silicon wafers with a pulsed high-power CO 2 laser. Chalk River, Ont: Accelerator Physics Branch, Chalk River Laboratories, 1995.

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Buglewicz, Keith. Mitsubishi & Diamond Star Performance TuningHP1496: A Hands-On Guide for Building the Ultimate High-Performance Mitsubishi Eclipse,Eagle Talon or Plymouth Laser, 1990-1999 Models. HP Trade, 2007.

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1916-, Prokhorov A. M., Konov V. I, Ralchenko Victor G, Society of Photo-optical Instrumentation Engineers., Society of Photo-optical Instrumentation Engineers. Russian Chapter., and Institut obshcheĭ fiziki (Rossiĭskai͡a︡ akademii͡a︡ nauk), eds. Lasers in synthesis, characterization, and processing of diamond: 6-9 October 1997, Tashkent, Uzbekistan. Bellingham, Wash: SPIE, 1997.

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Wade, Stephen. Charlie Butler. University of Illinois Press, 2017. http://dx.doi.org/10.5406/illinois/9780252036880.003.0011.

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This chapter describes Charlie Butler's recording of “Diamond Joe.” Butler, convict number 10636, recorded “Diamond Joe” at the Mississippi State Penitentiary at Parchman, Mississippi, in the spring of 1937. Two years later, he sang it again into John Lomax's disc machine. At the time, he left only the barest account of how he learned “Diamond Joe,” and none at all concerning how he came to sing. Vanished, too, are most details about his life. Though he appears in the 1920 state census that positively identifies him and his wife, later searches have proven less conclusive. For one thing, he took aliases. For another, he could not write, leaving only an “X” on the signature line of his commitment papers.
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Whyman, Susan E. Rough Diamonds. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797838.003.0003.

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Hutton was one of many rough diamonds—‘men of great talent but no polish’—who offer an alternative model to ‘politeness’. These self-educated entrepreneurs add a new layer to our knowledge of provincial society. Chapter 2 defines their characteristics, roles, strategies, and impacts. Case studies give life to Hutton’s collaborators and competitors including the printer John Baskerville, the industrialist Samuel Garbett, and the papermaker Robert Bage. They reveal how outsiders fit (or not) into the social structure and how mainstream society responded. Their lack of education and refusal to give deference caused problems, resentment, and grudges that are revealed in Hutton’s ‘Memorandums’. The result is a picture of suppressed conflict that allows us to address questions about social change and mobility. Yet because rough diamonds had confidence to experiment with new ideas, they became driving forces for the spread of mass culture on a less refined but more widespread plane.
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Lasker-Schüler, Else. Your Diamond Dreams Cut Open My Arteries: Poems by Else Lasker-Schüler. University of North Carolina Press, 2020.

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Whyman, Susan E. The Useful Knowledge of William Hutton. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797838.001.0001.

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The Useful Knowledge of William Hutton shows the rapid rise of a self-taught workman and of the city of Birmingham during the two major events of the eighteenth century—the Industrial Revolution and the Enlightenment. Hutton achieved wealth, land, status, and literary fame, but later became a victim of violent riots. The book boldly claims that an understanding of the Industrial Revolution requires engaging with the figure of the ‘rough diamond’, a person of worth and character, but lacking in manners, education, and refinement. A cast of unpolished entrepreneurs is brought to life as they drive economic and social change, and improve their towns and themselves. The book also contends that the rise of Birmingham cannot be understood without accepting that its vibrant cultural life was a crucial factor that spurred economic growth. Readers are plunged into a hidden provincial world marked by literacy, bookshops, printing, authorship, and the spread of useful knowledge. We see that ordinary people read history and wrote poetry, whilst they grappled with the effects of industrial change. Newly discovered memoirs reveal social conflict and relationships in rare detail. They also address problems of social mobility, income inequality, and breathtaking technological change that perplex us today.
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Book chapters on the topic "Diamond laser"

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Lin, L. T. S., M. A. Prelas, and Galina Popovici. "Laser Modes in Diamond." In Wide Band Gap Electronic Materials, 187–206. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0173-8_19.

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Mildren, Richard P., Alexander Sabella, Ondrej Kitzler, David J. Spence, and Aaron M. McKay. "Diamond Raman Laser Design and Performance." In Optical Engineering of Diamond, 239–76. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2013. http://dx.doi.org/10.1002/9783527648603.ch8.

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Bourdon, E. B. D., W. W. Duley, A. P. Jones, and R. H. Prince. "Characterization of Diamond-Like Films Prepared by Laser Ablation of Graphite." In Diamond and Diamond-like Films and Coatings, 297–305. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4684-5967-8_17.

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Konov, Vitaly I., Taras V. Kononenko, and Vitali V. Kononenko. "Laser Micro- and Nanoprocessing of Diamond Materials." In Optical Engineering of Diamond, 385–443. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2013. http://dx.doi.org/10.1002/9783527648603.ch12.

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Rand, S. C. "Four-Wave Mixing Spectroscopy of Metastable Defect States in Diamond." In Laser Spectroscopy VIII, 281–82. Berlin, Heidelberg: Springer Berlin Heidelberg, 1987. http://dx.doi.org/10.1007/978-3-540-47973-4_82.

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Allouard, M., and J. C. Pivin. "Characterization of the Composition, Electronic Structure and Hardness of Carbon Films Obtained by Ion Implantation, Laser Ablation, and Dual Ion Beam Sputtering." In Diamond and Diamond-like Films and Coatings, 439–45. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4684-5967-8_27.

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Narayan, Roger J. "Diamond-Like Carbon: Medical and Mechanical Applications." In Pulsed Laser Deposition of Thin Films, 333–61. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2006. http://dx.doi.org/10.1002/9780470052129.ch15.

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Obraztsov, A. N. "Laser Deposition and Patterning of Diamond Films." In Application of Particle and Laser Beams in Materials Technology, 269–80. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-015-8459-3_17.

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Mann, K., and F. Müller. "Deposition of Diamond-Like-Carbon Films by Laser PVD Technique Using Nanosecond and Femtosecond Excimer Lasers." In Laser in der Technik / Laser in Engineering, 857–60. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-662-08251-5_186.

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Rand, S. C., and L. G. DeShazer. "Laser Action of H3 Color Center in Diamond." In Tunable Solid State Lasers for Remote Sensing, 146. Berlin, Heidelberg: Springer Berlin Heidelberg, 1985. http://dx.doi.org/10.1007/978-3-540-39765-6_39.

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Conference papers on the topic "Diamond laser"

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Chmelir, Martina, and Manfred R. Berger. "Diamond turned optics." In Europto High Power Lasers and Laser Applications V, edited by Markus Bohrer, Tommaso Letardi, Dieter Schuoecker, and Horst Weber. SPIE, 1994. http://dx.doi.org/10.1117/12.184635.

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Walmsley, Ian A. "Entangbling – quantum correlations in diamond." In Laser Science. Washington, D.C.: OSA, 2012. http://dx.doi.org/10.1364/ls.2012.lw1j.5.

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Loncar, Marco. "Diamond Quantum and Nonlinear Photonics." In Laser Science. Washington, D.C.: OSA, 2014. http://dx.doi.org/10.1364/ls.2014.ltu4h.4.

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Griffiths, Ben, Yu-Chen Chen, Laiyi Weng, Shannon Nicley, Shazeaa Ihmael, Yashna Lekhai, Sam Johnson, et al. "Laser writing of colour centres in diamond." In Diamond Photonics - Physics, Technologies and Applications. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/dp.2019.28.

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Konov, Vitali I., Victor G. Ralchenko, Sergej M. Pimenov, Andrey A. Smolin, and Taras V. Kononenko. "Laser microprocessing of diamond and diamond-like films." In Optics Quebec, edited by Ian W. Boyd. SPIE, 1994. http://dx.doi.org/10.1117/12.167557.

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Hemmer, Philip R. "Optically Addressed Quantum Computer in Diamond." In Laser Science. Washington, D.C.: OSA, 2005. http://dx.doi.org/10.1364/ls.2005.lmd5.

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Fork, Richard, Wesley W. Walker, Rustin L. Laycock, Jason J. A. Green, and Spencer T. Cole. "Integrated diamond sapphire laser." In Frontiers in Optics. Washington, D.C.: OSA, 2003. http://dx.doi.org/10.1364/fio.2003.tux1.

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Castex, M. C., D. Riedel, L. Museur, Christian Chardonnet, Alix Gicquel, Francois Foulon, C. Borel, P. Bergonzo, and C. Jany. "Diamond: a material for laser spectroscopy." In Lasers in Synthesis, Characterization, and Processing of Diamond, edited by Vitali I. Konov and Victor G. Ralchenko. SPIE, 1998. http://dx.doi.org/10.1117/12.328192.

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Hanson, Ronald, Felix Mendoza, Ryan Epstein, and David D. Awschalom. "Imaging and Manipulating Single Spins in Diamond." In Laser Science. Washington, D.C.: OSA, 2006. http://dx.doi.org/10.1364/ls.2006.ltuc1.

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Jelezko, Fedor. "Spin-Based Quantum Information Processing in Diamond." In Laser Science. Washington, D.C.: OSA, 2006. http://dx.doi.org/10.1364/ls.2006.ltuc2.

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Reports on the topic "Diamond laser"

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Fork, Richard L., Spencer T. Cole, and Wesley W. Walker. Diamond/Sapphire Gain Element for Modelocked Backbone Laser. Fort Belvoir, VA: Defense Technical Information Center, August 2005. http://dx.doi.org/10.21236/ada440837.

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Banks, P. S., B. C. Stuart, L. Dinh, M. D. Feit, A. M. Rubenchik, W. McLean, and M. D. Perry. Short Pulse Laser Production of Diamond Thin Films. Office of Scientific and Technical Information (OSTI), March 1998. http://dx.doi.org/10.2172/802091.

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Bono, M., and D. Bennett. Diamond Wire Saw for Precision Machining of Laser Target Components. Office of Scientific and Technical Information (OSTI), August 2005. http://dx.doi.org/10.2172/878634.

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Baird, E. D., R. R. Donaldson, and S. R. Patterson. The laser interferometer system for the large optics diamond turning machine. Office of Scientific and Technical Information (OSTI), June 1999. http://dx.doi.org/10.2172/9646.

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Saunders, Alison M., Michael MacDonald, Ryan Nora, Amy Lazicki, Otto Landen, Damian Swift, Joe Nilsen, Wolfgang Theobald, Roger W. Falcone, and Tilo Doppner. X-Ray Thomson Scattering from Shock-Compressed Diamond Spheres on the OMEGA Laser. Office of Scientific and Technical Information (OSTI), March 2018. http://dx.doi.org/10.2172/1438609.

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Mildren, Richard. High Average Power Raman Conversion in Diamond: 'Eyesafe' Output and Fiber Laser Conversion. Fort Belvoir, VA: Defense Technical Information Center, June 2015. http://dx.doi.org/10.21236/ada626805.

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Simakov, Evgenya Ivanovna, Heather Lynn Andrews, Matthew Joseph Herman, Kevin Mark Hubbard, and Eric Weis. Diamond field emitter array cathodes and possibilities for employing additive manufacturing for dielectric laser accelerating structures. Office of Scientific and Technical Information (OSTI), September 2016. http://dx.doi.org/10.2172/1325662.

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Descamps, Adrien, B. Ofori-Okai, K. Appel, V. Cerantola, A. Comley, J. Eggert, L. Fletcher, et al. An approach for the measurement of the bulk temperature of single crystal diamond using an X-ray Free Electron Laser. Office of Scientific and Technical Information (OSTI), May 2020. http://dx.doi.org/10.2172/1630308.

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Mildren, Richard. Average Power and Brightness Scaling of Diamond Raman Lasers. Fort Belvoir, VA: Defense Technical Information Center, January 2012. http://dx.doi.org/10.21236/ada572113.

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Gat, R., T. I. Hukka, and M. P. D'Evelyn. Progress Toward Atomic Layer Epitaxy of Diamond Using Radical Chemistry. Fort Belvoir, VA: Defense Technical Information Center, May 1993. http://dx.doi.org/10.21236/ada265409.

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