Works matching DE "IRON isotopes"
Results: 197
Supernova antineutrino energy losses of <sup>59</sup>Co, <sup>56</sup>Co, <sup>56</sup>Ni, and <sup>56</sup>Fe by β<sup>−</sup>‐decay in strongly screened plasma.
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- Astronomische Nachrichten, 2020, v. 341, n. 3, p. 291, doi. 10.1002/asna.202013537
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- Article
The γ-process nucleosynthesis in core-collapse supernovae: I. A novel analysis of γ-process yields in massive stars.
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- Astronomy & Astrophysics / Astronomie et Astrophysique, 2023, v. 677, p. 1, doi. 10.1051/0004-6361/202346556
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- Article
Isotopic homogeneity of iron in the early solar nebula.
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- Nature, 2001, v. 412, n. 6844, p. 311, doi. 10.1038/35085525
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- Article
Preservation of Fe isotope heterogeneities during diagenesis and metamorphism of banded iron formation.
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- Contributions to Mineralogy & Petrology, 2007, v. 153, n. 2, p. 211, doi. 10.1007/s00410-006-0141-0
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- Article
Analyses of elastically scattered charged pions from calcium isotopes and the <sup>48</sup>Ca-<sup>54</sup>Fe isotone at 180 MeV.
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- Turkish Journal of Physics, 2013, v. 37, n. 2, p. 190, doi. 10.3906/fiz-1207-5
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- Article
Optical characterization of Fe<sup>3+</sup> doped CdS nanoparticles synthesized by wet-chemical route.
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- Turkish Journal of Physics, 2011, v. 35, n. 3, p. 341, doi. 10.3906/fiz-0911-40
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- Article
铁同位素分析测试技术研究进展.
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- Rock & Mineral Analysis, 2020, v. 39, n. 2, p. 151, doi. 10.15898/j.cnki.11-2131/td.201908120120
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- Article
Uniquely low stable iron isotopic signatures in deep marine sediments caused by Rayleigh distillation.
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- Scientific Reports, 2023, v. 13, n. 1, p. 1, doi. 10.1038/s41598-023-37254-2
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- Article
Continental weathering as the source of iron in Jurassic iron oolites from Switzerland.
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- Swiss Journal of Geosciences, 2023, v. 116, n. 1, p. 1, doi. 10.1186/s00015-023-00431-6
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- Article
Editorial.
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- 2010
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- Editorial
Iron Isotope Variations in Coastal Seawater Determined by Multicollector ICP-MS.
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- Geostandards & Geoanalytical Research, 2010, v. 34, n. 2, p. 135, doi. 10.1111/j.1751-908X.2010.00063.x
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- Article
Iron isotopes as an ore‐fluid tracer: Case study of Qingchengzi Pb‐Zn‐Au(‐Ag) orefield in Liaoning, NE China.
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- Resource Geology, 2021, v. 71, n. 4, p. 283, doi. 10.1111/rge.12261
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- Article
First Reliable Re-Os Ages of Pyrite and Stable Isotope Compositions of Fe(- Cu) Deposits in the Hami Region, Eastern Tianshan Orogenic Belt, NW China.
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- Resource Geology, 2013, v. 63, n. 2, p. 166, doi. 10.1111/rge.12003
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- Article
Improving iron isotope analysis for stable isotope studies using IDTIMS.
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- FASEB Journal, 2007, v. 21, n. 6, p. A1115, doi. 10.1096/fasebj.21.6.a1115-d
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- Article
Iron arsenide superconductors: What is the glue?
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- Nature Physics, 2009, v. 5, n. 6, p. 386, doi. 10.1038/nphys1297
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- Article
Protein array profiling of mouse serum, six months post whole body radiation with <sup>56</sup>Fe.
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- Journal of Toxicological Sciences, 2012, v. 37, n. 1, p. 215, doi. 10.2131/jts.37.215
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- Article
The Fingerprint of Climate Variability on the Surface Ocean Cycling of Iron and its Isotopes.
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- Biogeosciences Discussions, 2023, p. 1, doi. 10.5194/bg-2022-241
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- Article
Total Monte Carlo evaluation for dose calculations.
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- Radiation Protection Dosimetry, 2014, v. 161, n. 1-4, p. 312, doi. 10.1093/rpd/nct296
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- Article
Micro-scale variations of iron isotopes in fossilized microorganisms.
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- International Journal of Astrobiology, 2008, v. 7, n. 2, p. 93, doi. 10.1017/S1473550408004199
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- Article
ON THE VARIABILITY OF EQUATORIAL PACIFIC NITRATE AND IRON UTILIZATION.
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- Oceanography, 2024, v. 37, n. 2, p. 72, doi. 10.5670/oceanog.2024.411
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- Article
Using Iron Stable Isotopes to Quantify the Origins of the Cryoconite Iron Materials in Western China and Exploring Controlling Factors.
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- Journal of Geophysical Research. Atmospheres, 2024, v. 129, n. 14, p. 1, doi. 10.1029/2023JD040711
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- Article
Measurements of the Lamb-Mössbauer factor at simultaneous high-pressure-temperature conditions and estimates of the equilibrium isotopic fractionation of iron.
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- American Mineralogist, 2022, v. 107, n. 3, p. 421, doi. 10.2138/am-2021-7884
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- Article
Iron isotope fractionation in reduced hydrothermal gold deposits: A case study of the Wulong gold deposit, Liaodong Peninsula, East China.
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- American Mineralogist, 2021, v. 106, n. 3, p. 430, doi. 10.2138/am-2020-7534
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- Article
In-situ iron isotope analyses reveal igneous and magmatic-hydrothermal growth of magnetite at the Los Colorados Kiruna-type iron oxide-apatite deposit, Chile.
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- American Mineralogist, 2019, v. 104, n. 4, p. 471, doi. 10.2138/am-2019-6623
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- Article
METALS | POLYMERS | CERAMICS.
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- Advanced Materials & Processes, 2019, v. 177, n. 3, p. 8
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- Article
Nuclear Gamma-Resonance Spectroscopy in Study of Nanoscale Composites.
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- Physics of Atomic Nuclei, 2018, v. 81, n. 10, p. 1484, doi. 10.1134/S1063778818100125
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- Article
Structure of dipole resonances in iron isotopes Fe and Fe.
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- Physics of Atomic Nuclei, 2014, v. 77, n. 2, p. 200, doi. 10.1134/S1063778814010074
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- Article
Fine-grid calculations for stellar electron and positron capture rates on Fe isotopes.
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- Physics of Atomic Nuclei, 2013, v. 76, n. 3, p. 294, doi. 10.1134/S1063778813020142
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- Article
Dispersive optical potential from an analysis of neutron single-particle energies in the Ti, Cr, and Fe isotopes featuring 20 to 50 neutrons.
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- Physics of Atomic Nuclei, 2012, v. 75, n. 11, p. 1350, doi. 10.1134/S106377881211004X
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- Article
The study of Gamow-Teller transition strength for some Fe and Ni isotopes.
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- Physics of Atomic Nuclei, 2012, v. 75, n. 8, p. 958, doi. 10.1134/S106377881208011X
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- Article
Large-scale shell-model calculations for even-odd Fe isotopes.
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- Physics of Atomic Nuclei, 2010, v. 73, n. 10, p. 1656, doi. 10.1134/S1063778810100030
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- Article
Stable iron (<sup>58</sup>Fe) isotopic measurements in Kenyan toddlers during 3 months of iron supplementation demonstrate that half of the iron absorbed is lost.
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- British Journal of Haematology, 2024, v. 204, n. 5, p. 2057, doi. 10.1111/bjh.19319
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- Article
Measurement of long‐term iron absorption and loss during iron supplementation using a stable isotope of iron (<sup>57</sup>Fe).
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- British Journal of Haematology, 2021, v. 192, n. 1, p. 179, doi. 10.1111/bjh.17039
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- Article
Interpretation of kinetic isotope fractionation between aqueous Fe(II) and ferrihydrite under a high degree of microbial reduction.
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- Biogeosciences Discussions, 2020, p. 1, doi. 10.5194/bg-2020-85
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- Article
Distribution of Fe isotopes in particles and colloids in the salinity gradient along the Lena River plume, Laptev Sea.
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- Biogeosciences Discussions, 2018, p. 1, doi. 10.5194/bg-2018-181
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- Article
Changes in dissolved iron deposition to the oceans driven by human activity: a 3-D global modelling study.
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- Biogeosciences Discussions, 2015, v. 12, n. 5, p. 3943, doi. 10.5194/bgd-12-3943-2015
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- Article
Isotope fractionation between dissolved and suspended particulate Fe in the oxic and anoxic water column of the Baltic Sea.
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- Biogeosciences Discussions, 2012, v. 9, n. 4, p. 4793, doi. 10.5194/bgd-9-4793-2012
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- Article
Liburnian lunches: New stable isotope data for the Iron Age community of Nadin‐Gradina, Croatia.
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- International Journal of Osteoarchaeology, 2022, v. 32, n. 1, p. 241, doi. 10.1002/oa.3059
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- Article
Aqueous Fe(II)-catalyzed iron oxide recrystallization: Fe redox cycling and atom exchange, mineralogical recrystallization and contributing factor.
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- Reviews in Environmental Science & Biotechnology, 2023, v. 22, n. 1, p. 55, doi. 10.1007/s11157-023-09646-3
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- Article
Astronomy with Radioactivities.
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- Publications of the Astronomical Society of Australia, 2012, v. 29, n. 2, p. 87, doi. 10.1071/AS12010
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- Article
Reconstruction of HydSL Hydrogenase from Thiocapsa roseopersicina after Cyanide Inhibition.
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- Applied Biochemistry & Microbiology, 2021, v. 57, n. 3, p. 351, doi. 10.1134/S0003683821030169
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- Article
Stable iron isotopic composition of atmospheric aerosols: An overview.
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- NPJ Climate & Atmospheric Science, 2022, v. 5, n. 1, p. 1, doi. 10.1038/s41612-022-00299-7
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- Article
Living in Their Heyday: Iron‐Oxidizing Bacteria Bloomed in Shallow‐Marine, Subtidal Environments at ca. 1.88 Ga.
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- Geobiology, 2024, v. 22, n. 6, p. 1, doi. 10.1111/gbi.70003
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- Article
The deposition and significance of an Ediacaran non‐glacial iron formation.
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- Geobiology, 2023, v. 21, n. 1, p. 44, doi. 10.1111/gbi.12518
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- Article
In Situ Fe and S isotope analyses in pyrite from the 3.2 Ga Mendon Formation (Barberton Greenstone Belt, South Africa): Evidence for early microbial iron reduction.
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- Geobiology, 2020, v. 18, n. 3, p. 306, doi. 10.1111/gbi.12385
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- Article
Elucidating the Genetic Mechanism and the Ore-Forming Materials of the Kaladawan Iron Deposit in the North Altyn Tagn, Western China.
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- Minerals (2075-163X), 2024, v. 14, n. 6, p. 589, doi. 10.3390/min14060589
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- Article
Genesis of the Beizhan Iron Deposit in Western Tianshan, China: Insights from Trace Element and Fe-O Isotope Compositions of Magnetite.
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- Minerals (2075-163X), 2024, v. 14, n. 3, p. 304, doi. 10.3390/min14030304
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- Article
Iron Isotope Composition of Adakitic Rocks: The Shangcheng Pluton, Western Dabie Orogen, Central China.
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- Minerals (2075-163X), 2021, v. 11, n. 12, p. 1356, doi. 10.3390/min11121356
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- Article
Iron Isotope Constraints on the Mineralization Process of Shazi Sc-Rich Laterite Deposit in Qinglong County, China.
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- Minerals (2075-163X), 2021, v. 11, n. 7, p. 737, doi. 10.3390/min11070737
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- Article
Iron Isotope Compositions of Coexisting Sulfide and Silicate Minerals in Sudbury-Type Ores from the Jinchuan Ni-Cu Sulfide Deposit: A Perspective on Possible Core-Mantle Iron Isotope Fractionation.
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- Minerals (2075-163X), 2021, v. 11, n. 5, p. 464, doi. 10.3390/min11050464
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- Article