Earth and Planetary Sciences
Zircon
54%
Isotope Ratios
50%
Chemical Element
48%
Spectrometer
48%
Garnet
46%
Isotopic Composition
38%
Laser Ablation
29%
Papua New Guinea
27%
Isotopic Analysis
27%
Uranium Isotope
26%
Reference Material
23%
Magma
22%
Eclogite
22%
Quadrupole
21%
Trace Element
19%
Uranium Compound
19%
Geochronology
18%
Laser-Induced Breakdown Spectroscopy
18%
Oceanic Crust
18%
Amphibolite
14%
Metamorphic Rock
14%
Light Emission
12%
Actinide
12%
Terrane
11%
Nuclear Fuel
11%
Laser Ablation Inductively Coupled Plasma Mass Spectrometry
11%
Exhumation
10%
Mantle Source
10%
Continental Shelf
10%
Intrusion
10%
Orogenic Belt
9%
Plutonium Isotope
9%
Secondary Ion Mass Spectrometry
9%
New York
9%
Mass Spectroscopy
9%
Large Igneous Province
9%
Plate Boundary
9%
Mantle Plume
9%
Cobaltite
9%
New Jersey
9%
Basement Rock
9%
Rare Earth Element
9%
Cathodoluminescence
9%
Inductively Coupled Plasma Method
9%
Fractionation
8%
Ion Beam
8%
Peridotite
6%
Sulfide
6%
Protolith
6%
Biomineral
6%
Chemistry
Uranium
49%
Chemical Element
30%
Phase Composition
29%
Inductively Coupled Plasma Method
29%
Microextraction
27%
Inductively Coupled Plasma
27%
Laser Induced Breakdown Spectroscopy
27%
Laser Ablation
21%
Inductively Coupled Plasm Mass Spectrometry (ICPMS)
21%
Plutonium
18%
Optical Emission Spectroscopy
18%
Secondary Ion
18%
Fluorine
18%
actinides
13%
Mass Spectrometry
12%
Elemental Analysis
12%
Emission Spectroscopy
12%
Ionization
9%
Secondary Ion Mass Spectroscopy
9%
Rapid Screening
9%
Spent Fuel Radioactive Waste
9%
Quadrupole Mass Spectroscopy
9%
Mass Spectrometry
9%
Uranium Ore
9%
Uranium Oxide
9%
Thorium
9%
Actinoid Atom
7%
Nuclear Fuel Cycle
6%
Thermogravimetric Analysis
6%
Calcination
6%
Raman Spectroscopy
6%
Raman Spectrometry
6%
Energy-Dispersive Spectroscopy
6%
Powder X-Ray Diffractometry
6%
Engineering
Inductively Coupled Plasma
100%
Mass Spectrometer
48%
Phase Composition
34%
Signal Intensity
22%
Nuclear Safeguard
18%
Preliminary Investigation
18%
Amplifier
18%
Chemical Separation
16%
Relative Difference
13%
Nuclear Fuel
13%
High Resolution
12%
Fractionation
12%
Spent Nuclear Fuel
9%
Rate Dependence
9%
Heating Rate
9%
Burnup
9%
Hydride Formation
9%
Inductively Coupled Plasma Optical Emission Spectroscopy
9%
Element Group
9%
Quality Control
9%
Integration Time
9%
Reactor Operation
9%
Time Analysis
6%
Analytical Approach
6%
Complex Matrix
5%