Keyphrases
High-resolution
100%
Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICP-MS)
100%
Resin
100%
Line Scan
100%
Scanpath Analysis
100%
Silica
27%
Conventional Techniques
27%
Clay
18%
Optical Emission Spectroscopy
18%
Correlation Coefficient
18%
Lamination
18%
Inductively Coupled Plasma Mass Spectrometry
18%
Relative Standard Deviation
18%
Natural Sediment
18%
Log-ratio
18%
Elemental Composition
9%
Carbonate
9%
High Correlation
9%
Geochemical Data
9%
Sediment Samples
9%
Montmorillonite
9%
Barium
9%
Spiked Sediments
9%
Laminated Sediments
9%
Analytical Techniques
9%
Geochemical Profile
9%
Aluminosilicate
9%
High Reproducibility
9%
Sediment Layer
9%
Mass Spectrometry Data
9%
Clay Matrix
9%
X-ray Fluorescence
9%
Glass Beads
9%
Data Correction
9%
Spot Analysis
9%
Good Accuracy
9%
Discrete Sampling
9%
Calibration Standard
9%
Accuracy Deviation
9%
Fused Glass
9%
Elemental Fractionation
9%
Parallel-series
9%
Simple Protocol
9%
NIST SRM 610
9%
Non-matrix-matched Calibration
9%
Scanned Data
9%
Geochemical Signal
9%
Variable Accuracy
9%
Ablation Yield
9%
Earth and Planetary Sciences
Laser Ablation Inductively Coupled Plasma Mass Spectrometry
100%
Inductively Coupled Plasma Method
36%
Calcite
27%
Standard Deviation
18%
Correlation Coefficient
18%
Light Emission
18%
Chemical Element
18%
Montmorillonite
9%
X-Ray Fluorescence Spectroscopy
9%
Aluminosilicate
9%
Fractionation
9%
Clay Mineral
9%