Relevant bibliographies by topics / Mossbauer spectroscopy

Academic literature on the topic 'Mossbauer spectroscopy'

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Published: 4 June 2021
Last updated: 28 July 2024

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Journal articles on the topic "Mossbauer spectroscopy"

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Kamzin A. S., Obaidat I. M., Semenov V. G., Narayanaswamy V., Al-Omari I. A., Issa B., and Buryanenko I. V. "Structure and properties of Co-=SUB=-x-=/SUB=-Mn-=SUB=-1-x-=/SUB=-Fe-=SUB=-2-=/SUB=-O-=SUB=-4-=/SUB=- nanoparticles depending on the amount of Co ions (0≤ x≤ 1.0)." Physics of the Solid State 64, no. 6 (2022): 714. http://dx.doi.org/10.21883/pss.2022.06.53838.298.

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The properties of magnetic nanoparticles (MNPs) of spinel ferrites CoxMn1-xFe2O4 (at x=0.0; 0.2; 0.3; 0.4; 0.5; 0.6; 0.8; 1.0) synthesized by chemical co-precipitation method have been studied. The studies of the synthesized CoxMn1-xFe2O4 MNPs were carried out using X-ray diffraction (XRD), Raman scattering and Mossbauer spectroscopy. The results of XRD, Raman and Mossbaur studies indicate that the obtained CoxMn1-xFe2O4 MNPs are single-phase. It was established from XRD measurements that the average size of CoxMn1-xFe2O4 crystallites is 34.86 nm for MnFe2O4 (x=0) and decreases to 14.99 nm for CoFe2O4 (x=1.0) with increasing Co ions concentration. An analysis of the Mossbaur spectra showed that the average crystallite size varies from 25 nm for MnFe2O4 (x=0) to 12 nm for CoFe2O4 (x=1.0). On the Raman spectra of CoxMn1-xFe2O4 MNPs, in the region of ~620 cm-1, splitting of the A1g line is observed, which means that the studied MNPs have a reverse spinel structure. The intensity ratio of the A1g (1) and A1g (2) peaks indicates a significant redistribution of the Co2+ and Fe3+ cations between tetra- and octahedralpositions in MNPs of the CoxMn1-xFe2O4 ferrite, which is confirmed by Mossbauer data. Mossbaur spectroscopy data indicate that the synthesized CoxMn1-xFe2O4 MNPs consist of large particles with magnetic ordering and small particles in the paramagnetic phase. With an increase in the concentration of Mn ions, the proportion of fine particles increases, which leads to a decrease in the magnetic blocking temperature. The saturation magnetization of MNPs at x=0.2 (Co0.2Mn0.8Fe2O4) is 57.41 emu/g and this sample, as was found in [V. Narayanaswamy, I.A. Al-Omari, A.S. Kamzin, B. Issa, H.O. Tekin, H. Khourshid, H. Kumar, A. Mallya, S. Sambasivam, I.M. Obaidat. Nanomaterials 11, 1231 (2021)] has the highest specific absorption rate. As shown by Mossbauer studies, this is due to the fact that these particles are in a superparamagnetic state and the magnetic blocking temperature of these MNPs is in the region of ~315 K, which is most suitable for the treatment of malignant tumors by magnetic hyperthermia. Thus, the synthesized CoxMn1-xFe2O4 MNPs are promising for biomedical applications. Keywords: spinel ferrites CoxMn1-xFe2O4, magnetic structure, superparamagnetism, Mossbauer spectroscopy, materials for biomedicine.
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Fruchart, R., P. L'Heritier, P. Dalmas de Reotier, D. Fruchart, P. Wolfers, J. M. D. Coey, L. P. Ferreira, R. Guillen, P. Vulliet, and A. Yaouanc. "Mossbauer spectroscopy of R2Fe14B." Journal of Physics F: Metal Physics 17, no. 2 (February 1987): 483–501. http://dx.doi.org/10.1088/0305-4608/17/2/017.

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Adar, F., B. Lenain, D. C. Cook, and S. J. Oh. "Corrosion Product Identification by Micro-Raman and Mossbauer Spectroscopy." Microscopy and Microanalysis 4, S2 (July 1998): 506–7. http://dx.doi.org/10.1017/s1431927600022650.

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Micro-Raman spectrometry and Mossbauer spectroscopy have been used to identify the corrosion products on a steel coupon exposed in an industrial environment for 16 years. The Raman analysis was performed on a polished metallographic cross-section in order to map the oxides across the thickness of the coating. The spectra were recorded using a LabRam Micro-Raman spectrograph incorporating a 17 mW HeNe laser (attenuated to 1 mW to prevent oxide transformation), focused to 1 μm spot size, and 1800 g/mm grating. The confocal line-scan imaging enabled 100 spectra to be recorded in one scan at 0.5 um intervals across the thickness of the coating. The Mossbauer analysis was performed using in-situ scattering Mossbauer spectroscopy on the attached corrosion coating and transmission Mossbauer spectroscopy at 300K and 77K on the removed coating, to measure the fraction of each oxide present. Micro-Raman spectrometry showed that the corrosion products had formed in distinct layers as shown in Figure 1.
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Tulebayeva, Dinara, Assel Yermekova, Artem Kozlovskiy, and Maxim Zdorovets. "Investigation of phase transformations of iron nanoparticles during thermal annealing." EPJ Web of Conferences 201 (2019): 02003. http://dx.doi.org/10.1051/epjconf/201920102003.

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Structural properties and phase composition of nanoparticles based on iron oxide were studied. Mossbauer spectroscopy, X-ray diffraction, and scanning electron microscopy were used for the analysis of phase transformations. According to XRD and Mossbauer spectroscopy data, an increase in the annealing temperature, as well as the subsequent phase transformations of magnetite into maghemite and then to hematite, indicate an improvement in the structure and a decrease in microdistortions in the lattice as a result of annealing defects and vacancies. According to Mossbauer spectroscopy data at temperatures above 400°C, the lines of characteristic FeO, which are characteristic for disordered iron oxide, are observed, which also confirms the improvement of the crystal structure of nanoparticles.
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Pulido, E., I. Navarro, and A. Hernando. "Mossbauer spectroscopy in nanocrystalline materials." IEEE Transactions on Magnetics 28, no. 5 (September 1992): 2424–26. http://dx.doi.org/10.1109/20.179513.

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Fujita, F. E. "Recent developments in Mossbauer spectroscopy." Contemporary Physics 40, no. 5 (September 1999): 323–37. http://dx.doi.org/10.1080/001075199181396.

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Sheen, N. I., and V. H. McCann. "Mossbauer spectroscopy of NH4Co0.994Fe0.006Cl3and CsCo0.99Fe0.01Cl3." Journal of Physics: Condensed Matter 7, no. 9 (February 27, 1995): 1933–47. http://dx.doi.org/10.1088/0953-8984/7/9/017.

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Kimball, Clyde W. "Mossbauer spectroscopy and its applications." Journal of Nuclear Materials 144, no. 1-2 (January 1987): 207. http://dx.doi.org/10.1016/0022-3115(87)90299-6.

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Kamzin A.S., Caliskan G., Dogan N., ab1353@gmail.com, Semenov V. G, and Buryanenko I. V. "Zn-=SUB=-x-=/SUB=-Fe-=SUB=-3-x-=/SUB=-O-=SUB=-4-=/SUB=- (0 ≤ x≤ 1.0) magnetic nanoparticles functionalized with polyacrylic acid (PAA)." Technical Physics 67, no. 12 (2022): 1640. http://dx.doi.org/10.21883/tp.2022.12.55201.152-22.

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Studies of the properties of ZnxFe3-xO4 (x=0, 0.25, 0.5, 0.75, 1.0) magnetic nanoparticles synthesized by a modified hydrothermal method are presented in comparison with the properties of the same nanoparticles stabilized with polyacrylic acid ZnxFe3-xO4@PAA. The structure, size, morphology, and magnetic properties of the samples were studied by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT IR), physical properties measurements (PPMS), and Mossbauer spectroscopy. The synthesized nanoparticles are single-phase, without additional impurities, have a narrow size distribution and are in the superparamagnetic phase. From the (XRD) measurements, it was found that with an increase in the Zn content from x=0 to x=1.0, the sizes of the nanoparticles were increasing from 17 to 33 nm. Analysis of the Mossbauer spectroscopy data showed that when doped with Zn ions from x=0 to x=1.0, the sizes of the nanoparticles were decreasing from 15 nm to 5 nm. The results of the Mossbauer studies showed that both ZnxFe3-xO4 and ZnxFe3-xO4@PAA has a core/shell type structure in which the core is magnetically ordered, whereas the shell does not have magnetic ordering. Mossbauer studies indicate that the coating of citric acid particles leads to their isolation from each other (i. e., a decrease in the thickness of the paramagnetic shell, and due to this to increasing in the diameter of the core). This (the last sentense) sentense is too long. It could be mode two or three sentences for better clarification. Keywords: ferrite-spinel nanoparticles, hydrothermal synthesis, polyacrylic acid functionalization, Mossbauer spectroscopy, properties, crystal and magnetic structure.
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Rodmacq, B., A. K. Bhatnagar, and A. Chamberod. "Mossbauer spectroscopy of hydrogenated Fe73Ti27amorphous alloys." Journal of Physics F: Metal Physics 16, no. 11 (November 1986): L259—L263. http://dx.doi.org/10.1088/0305-4608/16/11/001.

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Dissertations / Theses on the topic "Mossbauer spectroscopy"

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Cowie, Bruce C. C. "Novel applications of Mossbauer spectroscopy." Thesis, Heriot-Watt University, 1988. http://hdl.handle.net/10399/934.

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Sheen, Nicholas I. "Mossbauer spectroscopy of linear chain systems." Thesis, University of Canterbury. Physics, 1994. http://hdl.handle.net/10092/8074.

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Since the prediction by Villain in 1975 of moving magnetic domain walls (or solitons) in 1-dimensional Ising-like antiferromagnets, there has been interest in compounds with these properties. Mössbauer spectra of CsCo₀⁠⁡⁢⁣⁤.₉₉Fe₀.₀₁Cl₃ in the magnetically ordered phases below TN₁ = 21.2 K were analysed by Ward et al (1987) assuming that only the two lowest energy electronic states of the ⁵⁷Fe⁲⁺ ion were significantly occupied (the 2-level relaxation model). This assumption is unreliable above approximately 18 K because it was estimated that the third lowest-lying electronic state of Fe⁲⁺ was significantly occupied at those temperatures. Nevertheless, it was found that two relaxation processes were present, one attributed to moving domain walls, and the other to transitions between the low-lying electronic states of the Fe⁲⁺ ion. In this work the 2-level relaxation model was extended to include the third lowest-lying electronic state of the Fe⁲⁺ ion. A further extension, the combined relaxation model, enables Mössbauer spectra to be fitted when both 3-level electronic relaxation and relaxation due to moving domain walls occur with similar rates at the same ⁵⁷Fe⁲⁺ site. The quasi 1-dimensional Ising-like antiferromagnetic salt NH₄CₒCl₃ doped with less than 1 atomic % ⁵⁷Fe⁲⁺ was synthesised, and Mössbauer spectra were taken at temperatures between 1.3 and 250 K. The Mössbauer spectra of both CₛC₀₁₋ₓFeₓCl₃ and NHâ‚„Coâ‚ -â‚“Feâ‚“Cl3 in the magnetically ordered phases were analysed using the 2-level, 3-level and combined relaxation models. Although good fits to the Mössbauer spectra of CₛC₀₁₋ₓFeₓCl₃ and NH₄FeₓCl₃ were obtained using all the relaxation models, the combined relaxation model was the most satisfactory since the assumptions of this model were not invalidated by the parameters obtained from the fits. The soliton relaxation rates obtained were much slower than those predicted theoretically and found from other experiments on CsCoCl3. One reason for this which is examined in this thesis is that the determined rates are unduly affected by the approximations made in the relaxation models. Another possible explanation of the discrepancy is that the presence of iron in the cobalt chains changes the soliton dynamics. In order to study the effect of doping NNH₄FeₓCl₃with Fe⁲⁺, the isomorphous crystal NH₄FeₓCl₃ was grown. The magnetic structure of NH₄FeₓCl₃ is expected to be governed by ferromagnetic intra-chain interactions and weaker antiferromagnetic inter-chain interactions. The linewidth broadening of the Mössbauer spectra of NH₄FeₓCl₃ at temperatures up to 10 K is evidence for the existence of magnetic correlations above the Neel temperature (1.7 K). The 4.2 and 1.3 K spectra show that a distribution of magnetic hyperfine fields B are present, possibly due to incommensurate magnetic ordering. At 4.2 K the main components of the Mössbauer spectrum are approximately 79 % with B = 0 and 21 % with B = 5.32 T. At 1.3 K the main components of the Mössbauer spectrum are approximately 72 % with B = 5.2 T and 28 %with B = 0. The non-magnetic subspectrum at 1.3 K may be caused by cancellation between the different components of the magnetic hyperfine field.
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Thorpe, Stephen C. "Surface corrosion studies by Mossbauer spectroscopy." Thesis, Sheffield Hallam University, 1987. http://shura.shu.ac.uk/20440/.

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Transmission [57]Fe Mossbauer Spectroscopy has been used to investigate two standard iron oxides and two environmental corrosion products in the temperature range 10-300 Kelvin. This was achieved using a specially developed Air Products cryogenic refrigeration system using gaseous helium as the refrigerant - thereby removing the requirement of an expensive liquid helium facility normally required for low temperature work. Characteristic spectra and transitions were observed for both the standard oxides. The environmental corrosion products demonstrated the differences in observed spectra between a sample which exhibits only bulk properties and one in which the particle size distribution within the sample is such that relaxation phenomena become important. The interpretations-made from the variable temperature Mossbauer data were confirmed by the complementary technique of X-ray diffraction. Conversion electron Mossbauer spectroscopy (C.E.M.S.) and conversion X-ray Mossbauer spectroscopy (C.X.M.S.) backscatter techniques have also been developed and are now routinely available in our laboratory. The greater escape depth of the conversion X-ray allows the C.X.M.S. method to be used to record spectra from samples to which a protective layer such as a paint, varnish, grease or oil layer has been applied. To ensure a surface sensitive signal, the substrate surfaces had to be enriched in the Mossbauer isotope 57Fe. This was achieved by vacuum evaporation of 57Fe onto the substrate surface and subsequent diffusion of the 57Fe into the near surface region - this diffusion had to be accomplished without oxidising the surface. Samples thus prepared were subsequently exposed to aggressive atmospheres and their CXM spectra recorded. The limitation of the method is that only room temperature spectra can be recorded at present and difficulties are encountered in the assignment of spectra that contain only quadrupole doublets.
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Al-Rawwas, Ahmed Dhofar. "A Mossbauer spectroscopy study of strontium iron oxides." Thesis, University of Liverpool, 1994. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.385228.

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Younis, Adbelhamid Mohamed. "Characterisation of iron in Libyan soil using Mossbauer spectroscopy." Thesis, University of St Andrews, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.731715.

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Abrahams, I. "Mossbauer spectroscopic and structural studies of tin materials." Thesis, City University London, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.375839.

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Moody, Kevin L. "Moessbauer spectroscopy on the Apple computer." Virtual Press, 1988. http://liblink.bsu.edu/uhtbin/catkey/543988.

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Software for Moessbauer spectroscopy has been developed for use on the Apple computer. This software is capable of collecting and fitting Moessbauer data when the Apple computer is interfaced with the ND2200 series multichannel analyzer. The software was tested in a study of the feasibility of using Moessbauer spectroscopy to study glass. Results indicate that iron in brown commercial glass and the volcanic glasses behaves similarly. This study concludes that Moessbauer spectroscopy is a promising method for the study of natural and archeological glasses and quality control in the manufacture of commercial glass.
Department of Physics and Astronomy
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Skinner, Stephen John. "Synthesis and characterisation of metal oxides and metal doped variants." Thesis, Open University, 1997. http://oro.open.ac.uk/57713/.

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Kurokuzu, Masayuki. "Studies on Iron Chalcogenide by Mossbauer Spectroscopy and Nuclear Resonant Inelastic Scattering." 京都大学 (Kyoto University), 2014. http://hdl.handle.net/2433/188478.

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McLean, Andrew Lister. "Applications of maximum entropy data analysis." Thesis, University of Southampton, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.319161.

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Books on the topic "Mossbauer spectroscopy"

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Marcel, Miglierini, Petridis Dimitris, and North Atlantic Treaty Organization. Scientific Affairs Division., eds. Mossbauer spectroscopy in materials science. Dordrecht: Kluwer, 1999.

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Seeheim Workshop on Mössbauer Spectroscopy (5th 2002). Mössbauer spectroscopy. Dordrecht: Kluwer Academic Publishers, 2003.

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Cook, Desmond C. Industrial Applications of the Mössbauer Effect: Proceedings of ISIAME 2000 held in Virginia Beach, USA, 13-18 August 2000. Dordrecht: Springer Netherlands, 2003.

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Baggio-, Saitovitch E., Silva E. Galvão da, and Rechenberg H. R, eds. Applications of the Mössbauer effect: Proceedings of the first Latin-American conference, Rio de Janeiro, 31 Oct.-4 Nov. 1988. Singapore: World Scientific, 1990.

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Maddock, A. G. Mössbauer spectroscopy: Principles and applications. Chichester: Horwood, 1997.

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1941-, Long Gary J., Stevens John G, and International Chemical Congress of Pacific Basin Societies (1984 : Honolulu, T.H.), eds. Industrial applications of the Möss bauer effect: (based on a symposium on industrial applications of the Mössbauer effect, held December 16-21, 1984, at the International Chemical Congress of Pacific Basin Societies, Honolulu, Hawaii). New York: Plenum, 1986.

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Attila, Vértes, and Nagy D. L. 1944-, eds. Mössbauer spectroscopy of frozen solutions. Budapest: Akadémiai Kiadó, 1990.

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Sharma, Virender K., Gostar Klingelhofer, and Tetsuaki Nishida. Mössbauer spectroscopy: Applications in chemistry, biology, industry, and nanotechnology. Hoboken, New Jersey: Wiley, 2014.

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1941-, Long Gary J., ed. Mössbauer spectroscopy applied to inorganic chemistry. London: Plenum, 1987.

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1941-, Long Gary J., and Grandjean Fernande 1947-, eds. Mössbauer spectroscopy applied to magnetism and materials science. New York: Plenum Press, 1993.

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Book chapters on the topic "Mossbauer spectroscopy"

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Ahluwalia, V. K. "Mossbauer Spectroscopy." In Instrumental Methods of Chemical Analysis, 471–79. Cham: Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-38355-7_32.

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Mallick, Prabal Kumar. "Mossbauer Spectroscopy." In Fundamentals of Molecular Spectroscopy, 417–28. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-0791-5_10.

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Hawthorne, Frank C. "Chapter 8. MOSSBAUER SPECTROSCOPY." In Spectroscopic Methods in Mineralogy and Geology, edited by Frank C. Hawthorne, 255–340. Berlin, Boston: De Gruyter, 1988. http://dx.doi.org/10.1515/9781501508974-010.

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Bogé, M., C. Jeandey, and J. L. Oddou. "Hyperfine Interactions on R-Fe-B Compounds Studied by Mossbauer Spectroscopy." In Concerted European Action on Magnets (CEAM), 310–22. Dordrecht: Springer Netherlands, 1989. http://dx.doi.org/10.1007/978-94-009-1135-2_26.

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Vysotskii, Vladimir I., Alia A. Kornilova, and Igor I. Samoylenko. "Mossbauer investigation of the phenomenon of isotope (Mn55 to Fe57) nuclear transmutation in growing biological cultures." In Spectroscopy of Biological Molecules: New Directions, 441–42. Dordrecht: Springer Netherlands, 1999. http://dx.doi.org/10.1007/978-94-011-4479-7_197.

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Kuncser, V., M. Vopsaroiu, B. Sahoo, P. R. Bissell, and W. Keune. "Advanced double coated metal particle tapes studied by Mossbauer spectroscopy and magnetic measurements." In Hyperfine Interactions (C), 103–6. Dordrecht: Springer Netherlands, 2002. http://dx.doi.org/10.1007/978-94-010-0281-3_26.

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Williamson, D. L., R. Picorel, and M. Seibert. "The State of the Iron in the Oxygen-Evolving Core Complex (OECC) of Phormidium Laminosum by Mossbauer Spectroscopy." In Current Research in Photosynthesis, 575–78. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-0511-5_132.

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Christie, I. A. D., D. G. Rancourt, H. Kodama, E. Murad, and J. L. Robert. "Oxidation of Synthetic Annite Mica Characterized by 57Fe Mossbauer Spectroscopy: Hydrogen De-Intercalation and Host-Layer Valence State Populations." In Chemical Physics of Intercalation II, 387–91. Boston, MA: Springer US, 1993. http://dx.doi.org/10.1007/978-1-4615-2850-0_45.

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Tian, Sida, Yongxu Fang, Zhizhong Kang, and Yuqun Zhuo. "Analysis of Iron-Bearing Phase Components in Shenhua Coal and Their Combustion Transformation Products by Acid Separation and Mossbauer Spectroscopy Methods." In Clean Coal Technology and Sustainable Development, 497–502. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-2023-0_67.

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"MOSSBAUER SPECTROSCOPY." In Experimental Techniques in Physics and Materials Science, 447–70. WORLD SCIENTIFIC, 2023. http://dx.doi.org/10.1142/9789811278891_0019.

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Conference papers on the topic "Mossbauer spectroscopy"

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Miglierini, Marcel, Adriana Lančok, Martin Kopáni, and Roman Boča. "Mössbauer spectroscopy of Basal Ganglia." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898624.

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Pathak, Biswajit, and Bosanta R. Boruah. "Zonal wavefront estimation using an array of hexagonal grating patterns." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898224.

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Cuda, Jan, Tomas Kohout, Jiri Tucek, Jan Filip, Ondrej Malina, Michal Krizek, and Radek Zboril. "In-field 57Fe Mössbauer spectroscopy below spin-flop transition in powdered troilite (FeS) mineral." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898605.

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Aparicio, Claudia, Jan Filip, Miroslav Mashlan, and Radek Zboril. "The influence of the iron content on the reductive decomposition of A3−xFexAl2Si3O12 garnets (A = Mg, Mn; 0.47 ≤ x ≤ 2.85)." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898606.

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Maksimova, Alevtina A., Michael I. Oshtrakh, Evgeniya V. Petrova, Victor I. Grokhovsky, and Vladimir A. Semionkin. "Study of Chelyabinsk LL5 meteorite fragment with a light lithology and its fusion crust using Mössbauer spectroscopy with a high velocity resolution." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898607.

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Klencsár, Zoltán. "Transmission integral analysis of Mössbauer spectra displaying hyperfine parameter distributions with arbitrary profile." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898608.

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Matsnev, Mikhail E., and Vyacheslav S. Rusakov. "Study of spatial spin-modulated structures by Mössbauer spectroscopy using SpectrRelax." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898609.

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Kohout, Pavel, Lukáš Kouřil, Jakub Navařík, Petr Novák, and Jiří Pechoušek. "Optimized linear motor and digital PID controller setup used in Mössbauer spectrometer." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898610.

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Kouřil, Lukáš, Pavel Kohout, Petr Novák, Jakub Navařík, and Jiří Pechoušek. "Setup of the Mössbauer spectrometer based on stand-alone instruments - A case study." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898611.

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Novak, Petr, Jiri Pechousek, Ondrej Malina, Jakub Navarik, and Libor Machala. "Liquid nitrogen cryostat for the low-temperature Mössbauer spectra measurements." In MOSSBAUER SPECTROSCOPY IN MATERIALS SCIENCE - 2014. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4898612.

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Reports on the topic "Mossbauer spectroscopy"

1

Riedel, F. R. Ferrocyanide safety program: FY 1995 report on Mossbauer spectroscopy tank activities. Office of Scientific and Technical Information (OSTI), October 1995. http://dx.doi.org/10.2172/409839.

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2

G.P. Huffman, K. R. P. M. Rao, and F.E. Huggins. MOSSBAUER SPECTROSCOPY STUDIES OF IRON CATALYSTS USED IN SLURRY PHASE FISCHER-TROPSCH SYNTHESIS. Office of Scientific and Technical Information (OSTI), February 1998. http://dx.doi.org/10.2172/769337.

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