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  • 1
    Online Resource
    Online Resource
    Backscattering Spectrometry. (1978)
    San Diego :Elsevier Science & Technology,
    Details
    Keywords: Backscattering. ; Electronic books.
    Type of Medium: Online Resource
    Pages: 1 online resource (401 pages)
    Edition: 1st ed.
    ISBN: 9780323152051
    URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=1170152
    Language: English
    Note: Front Cover -- Backscattering Spectrometry -- Copyright Page -- Table of Contents -- Dedication -- Preface -- Acknowledgments -- Chapter 1. Introduction -- 1.1 Introduction -- 1.2 Concept of a Backscattering Experiment and Its Layout -- 1.3 Basic Physical Processes -- 1.4 Examples and Applications -- 1.5 Strengths and Weaknesses of Backscattering Spectrometry -- 1.6 How to Read a Backscattering Spectrum -- 1.7 Book Outline -- References -- Chapter 2. Basic Physical Concepts -- 2.1 Introduction -- 2.2 Kinematic Factor K -- 2.3 Scattering Cross Section σ -- 2.4 Energy Loss and Stopping Cross Section -- 2.5 Linear Additivity of Stopping Cross Sections (Bragg's Rule) -- 2.6 Energy Straggling -- 2.7 Linear Additivity of Energy Straggling -- References -- Chapter 3. Concepts of Backscattering Spectrometry -- 3.1 Introduction -- 3.2 Depth Scale for an Elemental Sample -- 3.3 Energy E before Scattering -- 3.4 Numerical Methods to Find the Energy E before Scattering -- 3.5 Height of an Energy Spectrum for an Elemental Sample -- 3.6 Depth Scale for a Homogeneous Solid Containing More Than One Element (Compound Sample) -- 3.7 Height of an Energy Spectrum for a Homogeneous Solid Containing More Than One Element (Compound Sample) -- 3.8 High-Energy Edge of an Energy Spectrum for an Elemental Sample with Several Isotopes -- 3.9 Energy Loss and Yield Respond to Atoms per Unit Area -- 3.10 Numerical Methods to Compute Backscattering Spectra -- References -- Chapter 4. Backscattering Spectrometry of Thin Films -- 4.1 Introduction -- 4.2 Energy Spectrum of a Thin Elemental Film -- 4.3 Energy Spectrum of Multilayered Elemental Films -- 4.4 Energy Spectrum of a Homogeneous Thin Film Containing More Than One Element (Compound Film) -- 4.5 Energy Spectrum of Multilayered Films Containing More Than One Element (Layered Compound Films). , 4.6 Influence of Energy Straggling and System Resolution -- References -- Chapter 5. Examples of Backscattering Analysis -- 5.1 Introduction -- 5.2 Surface Impurity on an Elemental Bulk Target -- 5.3 Elemental Samples Containing Uniform Concentrations of Impurities -- 5.4 Composition of Homogeneous Samples Containing More Than One Element -- 5.5 Impurities Distributed in Depth in an Elemental Sample -- 5.6 Thickness of Thin Films -- References -- Chapter 6. Instrumentation and Experimental Techniques -- 6.1 Introduction -- 6.2 Accelerator -- 6.3 Energy Stabilization System -- 6.4 Energy Calibration -- 6.5 The Vacuum System -- 6.6 Beam Definition and Measurement -- 6.7 Backscattering Beam Energy Analysis -- 6.8 Sample Holders -- References -- Chapter 7. Influence of Beam Parameters -- 7.1 Introduction -- 7.2 Mass Resolution -- 7.3 Accessible Depth -- 7.4 Depth Resolution at Normal Incidence -- 7.5 Depth Resolution at Glancing Incidence -- 7.6 Sensitivity to Detection of Surface Impurities -- 7.7 Low-Energy Tails -- 7.8 Non-Rutherford Scattering, Nuclear Reactions, and Detection of Low-Mass Impurities -- 7.9 Microscopic Beam and Nonuniform Layers -- References -- Chapter 8. Use of Channeling Techniques -- 8.1 Introduction -- 8.2 Crystal Alignment Procedures -- 8.3 Perfect Crystal -- 8.4 Lattice Disorder Amorphous Layers and Polycrystalline Films -- 8.5 Flux Peaking and Lattice Site Location of Impurities -- 8.6 Influence of the Analysis Film -- References -- Chapter 9. Energy-Loss Measurements -- 9.1 Introduction -- 9.2 Extraction of ε Values from [ε] Measurements -- 9.3 Measurement of [ε] from Thin-Film Data -- 9.4 Determination of [ε] from Signal Height -- References -- Chapter 10. Bibliography on Applications of Backscattering Spectrometry -- 10.1 Introduction -- 10.2 Surfaces -- 10.3 Bulk Properties -- 10.4 Oxide and Nitride Layers. , 10.5 Deposited and Grown Layers -- 10.6 Thin-Film Reactions -- 10.7 Ion Implantation in Metals -- 10.8 Ion Implantation in Semiconductors -- 10.9 Hydrogen and Helium in Metals -- 10.10 Sputtering and Blistering Processes -- 10.11 Microbeams and Other Applications -- Appendix A: Transformation of the Rutherford Formula from Center of Mass to Laboratory Frame of Reference -- Appendix B: Influence of Energy Straggling on a Thin-Film Spectrum -- Appendix C: The True Position of the Edges of a Narrow Rectangular Signal -- Appendix D: List of Energy-Loss Complications -- Appendix E: Rough Targets -- Appendix F: Numerical Tables -- Indexes.
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  • 2
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    Unknown
    Granulometry of archaeological sites in northern Hungary and southern Slovakia (2017)
    PANGAEA
    In:  Supplement to: Chu, Wei; Lengyel, György; Zeeden, Christian; Péntek, Attila; Kaminská, Lubomíra; Mester, Zsolt (2018): Early Upper Paleolithic surface collections from loess-like sediments in the northern Carpathian Basin. Quaternary International, 485, 167-182, https://doi.org/10.1016/j.quaint.2017.05.017
    Details
    Publication Date: 2023-01-13
    Description: The way in which modern humans first entered Europe has been a recent focus of Upper Paleolithic research. A leading theory posits that the Danube served as a conduit for migration from Southeastern into Central and Western Europe. However, a challenge to this has been the scarcity of Early Upper Paleolithic sites along the Middle Danube (Carpathian) Basin. Though several sites with Early Upper Paleolithic features (Szeletian, Aurignacian) are known from surface prospections, few have been archeologically investigated in detail. Here, our aim is to elucidate this long-standing deficiency by evaluating two unknown and three known sites from the northern Carpathian Basin in Hungary and Slovakia through a series of “keyhole” excavations. The objectives were to see if in situ stratified material still existed and to characterize the sites' archeological assemblages and sedimentological contexts. To do this, field observations supplemented by granulometry were employed to determine if the surrounding sedimentary matrix was eolian loess and/or if it had been mixed with underlying older deposits. The results indicate that the lithics represent Early Upper Paleolithic assemblages that experienced post-depositional mixing. However, two sites (Seňa I, Nagyréde 1) showed more nuanced site formation processes and may contain in situ artifacts warranting further exploration. These studies highlight the importance of including sedimentological research into archeological investigations, because the paucity of sites may not simply mean a lack of human occupation, but can indicate a dynamic geomorphological evolution of the Pleistocene landscape that may have erased past traces of human settlements through insufficient sedimentation. The results provide new insights into the Early Upper Paleolithic settlement and the sedimentary dynamics of the Carpathian Basin ultimately leading to a greater understanding of the early modern human settlement patterns in Europe.
    Type: Dataset
    Format: application/zip, 6 datasets
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  • 3
    facet.materialart.
    Unknown
    Granulometry of archaeological site Szécsénke-Berecz-oldal 3, transect 1 (northern Hungary) (2017)
    PANGAEA
    Details
    Publication Date: 2023-02-07
    Keywords: DEPTH, sediment/rock; Grain size, mean; H_BO3; Hungary; Median, grain size; Mode, grain size; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.954-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.779-9.819 µm; Size fraction 101.1-92.099 µm; Size fraction 1041-948.34 µm; Size fraction 11.832-10.779 µm; Size fraction 110.99-101.1 µm; Size fraction 1142.8-1041 µm; Size fraction 12.989-11.832 µm; Size fraction 121.84-110.99 µm; Size fraction 1254.6-1142.8 µm; Size fraction 133.75-121.84 µm; Size fraction 1377.2-1254.6 µm; Size fraction 14.259-12.989 µm; Size fraction 146.82-133.75 µm; Size fraction 15.653-14.259 µm; Size fraction 1511.8-1377.2 µm; Size fraction 161.18-146.82 µm; Size fraction 1659.6-1511.8 µm; Size fraction 17.183-15.653 µm; Size fraction 176.93-161.18 µm; Size fraction 18.863-17.183 µm; Size fraction 1821.9-1659.6 µm; Size fraction 194.23-176.93 µm; Size fraction 2.011-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.707-18.863 µm; Size fraction 2000-1821.9 µm; Size fraction 213.22-194.23 µm; Size fraction 22.732-20.707 µm; Size fraction 234.07-213.22 µm; Size fraction 24.954-22.732 µm; Size fraction 256.95-234.07 µm; Size fraction 27.393-24.954 µm; Size fraction 282.07-256.95 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.863-3.519 µm; Size fraction 30.071-27.393 µm; Size fraction 309.64-282.07 µm; Size fraction 33.011-30.071 µm; Size fraction 339.92-309.64 µm; Size fraction 36.239-33.011 µm; Size fraction 373.15-339.92 µm; Size fraction 39.781-36.239 µm; Size fraction 4.241-3.863 µm; Size fraction 4.656-4.241 µm; Size fraction 409.63-373.15 µm; Size fraction 43.67-39.781 µm; Size fraction 449.67-409.63 µm; Size fraction 47.94-43.67 µm; Size fraction 493.63-449.67 µm; Size fraction 5.111-4.656 µm; Size fraction 5.610-5.111 µm; Size fraction 52.626-47.94 µm; Size fraction 541.89-493.63 µm; Size fraction 57.771-52.626 µm; Size fraction 594.87-541.89 µm; Size fraction 6.159-5.61 µm; Size fraction 6.761-6.159 µm; Size fraction 63.419-57.771 µm; Size fraction 653.02-594.87 µm; Size fraction 69.619-63.419 µm; Size fraction 7.422-6.761 µm; Size fraction 716.87-653.02 µm; Size fraction 76.425-69.619 µm; Size fraction 786.95-716.87 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.148 µm; Size fraction 83.897-76.425 µm; Size fraction 863.88-786.95 µm; Size fraction 9.819-8.944 µm; Size fraction 92.099-83.897 µm; Size fraction 948.34-863.88 µm; SOIL; Soil profile; Szécsénke-Berecz-oldal 3
    Type: Dataset
    Format: text/tab-separated-values, 1190 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 4
    facet.materialart.
    Unknown
    Granulometry of archaeological site Szécsénke-Berecz-oldal 3, transect 2 (northern Hungary) (2017)
    PANGAEA
    Details
    Publication Date: 2023-02-07
    Keywords: DEPTH, sediment/rock; Grain size, mean; H_BO3; Hungary; Median, grain size; Mode, grain size; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.954-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.779-9.819 µm; Size fraction 101.1-92.099 µm; Size fraction 1041-948.34 µm; Size fraction 11.832-10.779 µm; Size fraction 110.99-101.1 µm; Size fraction 1142.8-1041 µm; Size fraction 12.989-11.832 µm; Size fraction 121.84-110.99 µm; Size fraction 1254.6-1142.8 µm; Size fraction 133.75-121.84 µm; Size fraction 1377.2-1254.6 µm; Size fraction 14.259-12.989 µm; Size fraction 146.82-133.75 µm; Size fraction 15.653-14.259 µm; Size fraction 1511.8-1377.2 µm; Size fraction 161.18-146.82 µm; Size fraction 1659.6-1511.8 µm; Size fraction 17.183-15.653 µm; Size fraction 176.93-161.18 µm; Size fraction 18.863-17.183 µm; Size fraction 1821.9-1659.6 µm; Size fraction 194.23-176.93 µm; Size fraction 2.011-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.707-18.863 µm; Size fraction 2000-1821.9 µm; Size fraction 213.22-194.23 µm; Size fraction 22.732-20.707 µm; Size fraction 234.07-213.22 µm; Size fraction 24.954-22.732 µm; Size fraction 256.95-234.07 µm; Size fraction 27.393-24.954 µm; Size fraction 282.07-256.95 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.863-3.519 µm; Size fraction 30.071-27.393 µm; Size fraction 309.64-282.07 µm; Size fraction 33.011-30.071 µm; Size fraction 339.92-309.64 µm; Size fraction 36.239-33.011 µm; Size fraction 373.15-339.92 µm; Size fraction 39.781-36.239 µm; Size fraction 4.241-3.863 µm; Size fraction 4.656-4.241 µm; Size fraction 409.63-373.15 µm; Size fraction 43.67-39.781 µm; Size fraction 449.67-409.63 µm; Size fraction 47.94-43.67 µm; Size fraction 493.63-449.67 µm; Size fraction 5.111-4.656 µm; Size fraction 5.610-5.111 µm; Size fraction 52.626-47.94 µm; Size fraction 541.89-493.63 µm; Size fraction 57.771-52.626 µm; Size fraction 594.87-541.89 µm; Size fraction 6.159-5.61 µm; Size fraction 6.761-6.159 µm; Size fraction 63.419-57.771 µm; Size fraction 653.02-594.87 µm; Size fraction 69.619-63.419 µm; Size fraction 7.422-6.761 µm; Size fraction 716.87-653.02 µm; Size fraction 76.425-69.619 µm; Size fraction 786.95-716.87 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.148 µm; Size fraction 83.897-76.425 µm; Size fraction 863.88-786.95 µm; Size fraction 9.819-8.944 µm; Size fraction 92.099-83.897 µm; Size fraction 948.34-863.88 µm; SOIL; Soil profile; Szécsénke-Berecz-oldal 3
    Type: Dataset
    Format: text/tab-separated-values, 1190 data points
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  • 5
    facet.materialart.
    Unknown
    Granulometry of archaeological site Nagyrede 1 (northern Hungary) (2017)
    PANGAEA
    Details
    Publication Date: 2023-02-07
    Keywords: DEPTH, sediment/rock; Grain size, mean; Hungary; Median, grain size; Mode, grain size; Nagyrede_1; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.954-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.779-9.819 µm; Size fraction 101.1-92.099 µm; Size fraction 1041-948.34 µm; Size fraction 11.832-10.779 µm; Size fraction 110.99-101.1 µm; Size fraction 1142.8-1041 µm; Size fraction 12.989-11.832 µm; Size fraction 121.84-110.99 µm; Size fraction 1254.6-1142.8 µm; Size fraction 133.75-121.84 µm; Size fraction 1377.2-1254.6 µm; Size fraction 14.259-12.989 µm; Size fraction 146.82-133.75 µm; Size fraction 15.653-14.259 µm; Size fraction 1511.8-1377.2 µm; Size fraction 161.18-146.82 µm; Size fraction 1659.6-1511.8 µm; Size fraction 17.183-15.653 µm; Size fraction 176.93-161.18 µm; Size fraction 18.863-17.183 µm; Size fraction 1821.9-1659.6 µm; Size fraction 194.23-176.93 µm; Size fraction 2.011-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.707-18.863 µm; Size fraction 2000-1821.9 µm; Size fraction 213.22-194.23 µm; Size fraction 22.732-20.707 µm; Size fraction 234.07-213.22 µm; Size fraction 24.954-22.732 µm; Size fraction 256.95-234.07 µm; Size fraction 27.393-24.954 µm; Size fraction 282.07-256.95 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.863-3.519 µm; Size fraction 30.071-27.393 µm; Size fraction 309.64-282.07 µm; Size fraction 33.011-30.071 µm; Size fraction 339.92-309.64 µm; Size fraction 36.239-33.011 µm; Size fraction 373.15-339.92 µm; Size fraction 39.781-36.239 µm; Size fraction 4.241-3.863 µm; Size fraction 4.656-4.241 µm; Size fraction 409.63-373.15 µm; Size fraction 43.67-39.781 µm; Size fraction 449.67-409.63 µm; Size fraction 47.94-43.67 µm; Size fraction 493.63-449.67 µm; Size fraction 5.111-4.656 µm; Size fraction 5.610-5.111 µm; Size fraction 52.626-47.94 µm; Size fraction 541.89-493.63 µm; Size fraction 57.771-52.626 µm; Size fraction 594.87-541.89 µm; Size fraction 6.159-5.61 µm; Size fraction 6.761-6.159 µm; Size fraction 63.419-57.771 µm; Size fraction 653.02-594.87 µm; Size fraction 69.619-63.419 µm; Size fraction 7.422-6.761 µm; Size fraction 716.87-653.02 µm; Size fraction 76.425-69.619 µm; Size fraction 786.95-716.87 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.148 µm; Size fraction 83.897-76.425 µm; Size fraction 863.88-786.95 µm; Size fraction 9.819-8.944 µm; Size fraction 92.099-83.897 µm; Size fraction 948.34-863.88 µm; SOIL; Soil profile
    Type: Dataset
    Format: text/tab-separated-values, 714 data points
    Location Call Number Limitation Availability
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  • 6
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    Unknown
    Granulometry of archaeological site Sena I (southern Slovakia) (2017)
    PANGAEA
    Details
    Publication Date: 2023-02-07
    Keywords: DEPTH, sediment/rock; Grain size, mean; Median, grain size; Mode, grain size; Sena_I; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.954-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.779-9.819 µm; Size fraction 101.1-92.099 µm; Size fraction 1041-948.34 µm; Size fraction 11.832-10.779 µm; Size fraction 110.99-101.1 µm; Size fraction 1142.8-1041 µm; Size fraction 12.989-11.832 µm; Size fraction 121.84-110.99 µm; Size fraction 1254.6-1142.8 µm; Size fraction 133.75-121.84 µm; Size fraction 1377.2-1254.6 µm; Size fraction 14.259-12.989 µm; Size fraction 146.82-133.75 µm; Size fraction 15.653-14.259 µm; Size fraction 1511.8-1377.2 µm; Size fraction 161.18-146.82 µm; Size fraction 1659.6-1511.8 µm; Size fraction 17.183-15.653 µm; Size fraction 176.93-161.18 µm; Size fraction 18.863-17.183 µm; Size fraction 1821.9-1659.6 µm; Size fraction 194.23-176.93 µm; Size fraction 2.011-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.707-18.863 µm; Size fraction 2000-1821.9 µm; Size fraction 213.22-194.23 µm; Size fraction 22.732-20.707 µm; Size fraction 234.07-213.22 µm; Size fraction 24.954-22.732 µm; Size fraction 256.95-234.07 µm; Size fraction 27.393-24.954 µm; Size fraction 282.07-256.95 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.863-3.519 µm; Size fraction 30.071-27.393 µm; Size fraction 309.64-282.07 µm; Size fraction 33.011-30.071 µm; Size fraction 339.92-309.64 µm; Size fraction 36.239-33.011 µm; Size fraction 373.15-339.92 µm; Size fraction 39.781-36.239 µm; Size fraction 4.241-3.863 µm; Size fraction 4.656-4.241 µm; Size fraction 409.63-373.15 µm; Size fraction 43.67-39.781 µm; Size fraction 449.67-409.63 µm; Size fraction 47.94-43.67 µm; Size fraction 493.63-449.67 µm; Size fraction 5.111-4.656 µm; Size fraction 5.610-5.111 µm; Size fraction 52.626-47.94 µm; Size fraction 541.89-493.63 µm; Size fraction 57.771-52.626 µm; Size fraction 594.87-541.89 µm; Size fraction 6.159-5.61 µm; Size fraction 6.761-6.159 µm; Size fraction 63.419-57.771 µm; Size fraction 653.02-594.87 µm; Size fraction 69.619-63.419 µm; Size fraction 7.422-6.761 µm; Size fraction 716.87-653.02 µm; Size fraction 76.425-69.619 µm; Size fraction 786.95-716.87 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.148 µm; Size fraction 83.897-76.425 µm; Size fraction 863.88-786.95 µm; Size fraction 9.819-8.944 µm; Size fraction 92.099-83.897 µm; Size fraction 948.34-863.88 µm; Slovakia, Europe; SOIL; Soil profile
    Type: Dataset
    Format: text/tab-separated-values, 595 data points
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  • 7
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    Granulometry of archaeological site Kosice-Barca II (southern Slovakia) (2017)
    PANGAEA
    Details
    Publication Date: 2023-02-08
    Keywords: DEPTH, sediment/rock; Grain size, mean; Kosice-Barca_II; Median, grain size; Mode, grain size; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.954-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.779-9.819 µm; Size fraction 101.1-92.099 µm; Size fraction 1041-948.34 µm; Size fraction 11.832-10.779 µm; Size fraction 110.99-101.1 µm; Size fraction 1142.8-1041 µm; Size fraction 12.989-11.832 µm; Size fraction 121.84-110.99 µm; Size fraction 1254.6-1142.8 µm; Size fraction 133.75-121.84 µm; Size fraction 1377.2-1254.6 µm; Size fraction 14.259-12.989 µm; Size fraction 146.82-133.75 µm; Size fraction 15.653-14.259 µm; Size fraction 1511.8-1377.2 µm; Size fraction 161.18-146.82 µm; Size fraction 1659.6-1511.8 µm; Size fraction 17.183-15.653 µm; Size fraction 176.93-161.18 µm; Size fraction 18.863-17.183 µm; Size fraction 1821.9-1659.6 µm; Size fraction 194.23-176.93 µm; Size fraction 2.011-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.707-18.863 µm; Size fraction 2000-1821.9 µm; Size fraction 213.22-194.23 µm; Size fraction 22.732-20.707 µm; Size fraction 234.07-213.22 µm; Size fraction 24.954-22.732 µm; Size fraction 256.95-234.07 µm; Size fraction 27.393-24.954 µm; Size fraction 282.07-256.95 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.863-3.519 µm; Size fraction 30.071-27.393 µm; Size fraction 309.64-282.07 µm; Size fraction 33.011-30.071 µm; Size fraction 339.92-309.64 µm; Size fraction 36.239-33.011 µm; Size fraction 373.15-339.92 µm; Size fraction 39.781-36.239 µm; Size fraction 4.241-3.863 µm; Size fraction 4.656-4.241 µm; Size fraction 409.63-373.15 µm; Size fraction 43.67-39.781 µm; Size fraction 449.67-409.63 µm; Size fraction 47.94-43.67 µm; Size fraction 493.63-449.67 µm; Size fraction 5.111-4.656 µm; Size fraction 5.610-5.111 µm; Size fraction 52.626-47.94 µm; Size fraction 541.89-493.63 µm; Size fraction 57.771-52.626 µm; Size fraction 594.87-541.89 µm; Size fraction 6.159-5.61 µm; Size fraction 6.761-6.159 µm; Size fraction 63.419-57.771 µm; Size fraction 653.02-594.87 µm; Size fraction 69.619-63.419 µm; Size fraction 7.422-6.761 µm; Size fraction 716.87-653.02 µm; Size fraction 76.425-69.619 µm; Size fraction 786.95-716.87 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.148 µm; Size fraction 83.897-76.425 µm; Size fraction 863.88-786.95 µm; Size fraction 9.819-8.944 µm; Size fraction 92.099-83.897 µm; Size fraction 948.34-863.88 µm; Slovakia, Europe; SOIL; Soil profile
    Type: Dataset
    Format: text/tab-separated-values, 476 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 8
    facet.materialart.
    Unknown
    Granulometry of archaeological site Szécsénke-Kis-Ferenc-hegy (northern Hungary) (2017)
    PANGAEA
    Details
    Publication Date: 2023-02-08
    Keywords: DEPTH, sediment/rock; Grain size, mean; H_KFH; Hungary; Median, grain size; Mode, grain size; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.954-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.779-9.819 µm; Size fraction 101.1-92.099 µm; Size fraction 1041-948.34 µm; Size fraction 11.832-10.779 µm; Size fraction 110.99-101.1 µm; Size fraction 1142.8-1041 µm; Size fraction 12.989-11.832 µm; Size fraction 121.84-110.99 µm; Size fraction 1254.6-1142.8 µm; Size fraction 133.75-121.84 µm; Size fraction 1377.2-1254.6 µm; Size fraction 14.259-12.989 µm; Size fraction 146.82-133.75 µm; Size fraction 15.653-14.259 µm; Size fraction 1511.8-1377.2 µm; Size fraction 161.18-146.82 µm; Size fraction 1659.6-1511.8 µm; Size fraction 17.183-15.653 µm; Size fraction 176.93-161.18 µm; Size fraction 18.863-17.183 µm; Size fraction 1821.9-1659.6 µm; Size fraction 194.23-176.93 µm; Size fraction 2.011-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.707-18.863 µm; Size fraction 2000-1821.9 µm; Size fraction 213.22-194.23 µm; Size fraction 22.732-20.707 µm; Size fraction 234.07-213.22 µm; Size fraction 24.954-22.732 µm; Size fraction 256.95-234.07 µm; Size fraction 27.393-24.954 µm; Size fraction 282.07-256.95 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.863-3.519 µm; Size fraction 30.071-27.393 µm; Size fraction 309.64-282.07 µm; Size fraction 33.011-30.071 µm; Size fraction 339.92-309.64 µm; Size fraction 36.239-33.011 µm; Size fraction 373.15-339.92 µm; Size fraction 39.781-36.239 µm; Size fraction 4.241-3.863 µm; Size fraction 4.656-4.241 µm; Size fraction 409.63-373.15 µm; Size fraction 43.67-39.781 µm; Size fraction 449.67-409.63 µm; Size fraction 47.94-43.67 µm; Size fraction 493.63-449.67 µm; Size fraction 5.111-4.656 µm; Size fraction 5.610-5.111 µm; Size fraction 52.626-47.94 µm; Size fraction 541.89-493.63 µm; Size fraction 57.771-52.626 µm; Size fraction 594.87-541.89 µm; Size fraction 6.159-5.61 µm; Size fraction 6.761-6.159 µm; Size fraction 63.419-57.771 µm; Size fraction 653.02-594.87 µm; Size fraction 69.619-63.419 µm; Size fraction 7.422-6.761 µm; Size fraction 716.87-653.02 µm; Size fraction 76.425-69.619 µm; Size fraction 786.95-716.87 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.148 µm; Size fraction 83.897-76.425 µm; Size fraction 863.88-786.95 µm; Size fraction 9.819-8.944 µm; Size fraction 92.099-83.897 µm; Size fraction 948.34-863.88 µm; SOIL; Soil profile; Szécsénke-Kis-Ferenc-hegy
    Type: Dataset
    Format: text/tab-separated-values, 2856 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 9
    facet.materialart.
    Unknown
    Sedimentology of a Late Quaternary lacustrine record from the south‐eastern Carpathian Basin (2021)
    Details
    Publication Date: 2021-07-21
    Description: The Upper Pleistocene geoarchives in the south‐eastern Carpathian Basin are represented predominantly by loess–palaeosol records. In 2015, a 10 m sediment core composed of clay‐rich lacustrine sediments was recovered by vibracoring a dry lake basin located between the Vršac Mountains (Serbia) and the Banat Sands in the south‐eastern Carpathian Basin; a location relevant for placing regional archaeological results in a palaeoenvironmental context. Here, we present results from geoelectrical prospection and a lithostratigraphic interpretation of this sequence supported by a detailed granulometric study supplemented by ostracod analysis. An age model based on luminescence dating is discussed against sedimentological proxy data and its implication for palaeoenvironmental change. The cores show a stratigraphy of lighter ochre‐coloured and darker greyish sediment, related to the deposition of clay and silt trapped in an aquatic environment. Geophysical measurements show ~20 m thick lacustrine sediments. The grain‐size distributions including the variability in fine clay are indicative of a lacustrine environment. Fine particles were brought into the depositional environments by aquatic input and settled from suspension; also, direct dust input is constrained by grain‐size results. Riverine input and aeolian dust input interplayed at the locality.
    Description: Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659
    Description: Program IDEI_Proiecte de Cercetare Exploratorie
    Description: Serbian Ministry of Education, Science and Technological Development
    Keywords: 551 ; 554 ; Carpathian Basin ; Late Quaternary ; lacustrine sediment ; geoelectric analyses ; luminescence dating ; grain‐size analysis ; environmental dynamics
    Type: article
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    CITATION GEO-LEO
  • 10
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    Unknown
    Lithic artifact assemblage transport and microwear modification in a fluvial setting: A radio frequency identification tag experiment (2021)
    Details
    Publication Date: 2021-10-14
    Description: River processes are widely assumed to have impacted the integrity of lithic assemblages when artifacts are found in fluvial sediments, but the specifics of these influences remain largely unknown. We conducted a real-world experiment to determine how the initial stages of fluvial entrainment affected lithic artifact assemblages. We inserted replica artifacts with radio frequency identification tags into a gravel-bedded river in Wales (UK) for seven months and related their transport distances to their morphology and the recorded streamflow. In addition, nine artifacts were recovered at the end of the experiment and analyzed for microwear traces. In sum, our results show that in a gravel-bedded river with a mean discharge of 5.1 m3/s, artifact length and width were the main variables influencing artifact transport distances. The experiment also resulted in characteristic microwear traces developing on the artifacts over distances of 485 m or less. These results emphasize the multifaceted nature of alluvial site formation processes in a repeatable experiment and highlight new ways to identify the transport of replica Paleolithic material.
    Keywords: 550.724 ; 551.35 ; experimental archaeology ; fluvial dynamics ; Paleolithic ; RFID ; taphonomy ; use-wear
    Language: English
    Type: map
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    CITATION GEO-LEO
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