Gadolinium (Gd) Absorption Goniometer Wavelength First order reflection Analysis Standard deviation Table top instrument Optical path Sequential spectrometers Reference material Metal Malvern Analyzing crystal Grinding Accuracy Monochromator We get to do an experiment Rhodium (Rh) Ionization energy Infinite thickness Multichannel analyzer Energy dispersive MAC PANanlytical There is a spelling mistake on the slide WD- XRF Lecturer passes around samples Matrix effect Heavy element Sample preparation Emission Collimeter Graphite crystal Optics Moseley’s law Vacancy Wavelength dispersive We get to look up a table Reproducibility Gold (Au) Resolution Fusion Diffraction crystal Fluorescence Bragg’s law Compton Gamma rays We get to do a calculation Absorption edge Sequential XRF L- shell Spectral line Pellet Data processing Enhancement Limit of Detection Compound M- shell Chemometric Counts per second Si- PIN Elemental analysis Gaussian Ppm X-ray tube Someone sneezes Specimen Bremsstrahlung Siegbahn notation Homogeneous Concentration Scattering Cup Binding energy Beads Signal to noise Calibration Rayleigh Vacuum Peak area Dispersion Inner electron Enhancement effect Detector Auger Radiation X- ray Gadolinium (Gd) Absorption Goniometer Wavelength First order reflection Analysis Standard deviation Table top instrument Optical path Sequential spectrometers Reference material Metal Malvern Analyzing crystal Grinding Accuracy Monochromator We get to do an experiment Rhodium (Rh) Ionization energy Infinite thickness Multichannel analyzer Energy dispersive MAC PANanlytical There is a spelling mistake on the slide WD- XRF Lecturer passes around samples Matrix effect Heavy element Sample preparation Emission Collimeter Graphite crystal Optics Moseley’s law Vacancy Wavelength dispersive We get to look up a table Reproducibility Gold (Au) Resolution Fusion Diffraction crystal Fluorescence Bragg’s law Compton Gamma rays We get to do a calculation Absorption edge Sequential XRF L- shell Spectral line Pellet Data processing Enhancement Limit of Detection Compound M- shell Chemometric Counts per second Si- PIN Elemental analysis Gaussian Ppm X-ray tube Someone sneezes Specimen Bremsstrahlung Siegbahn notation Homogeneous Concentration Scattering Cup Binding energy Beads Signal to noise Calibration Rayleigh Vacuum Peak area Dispersion Inner electron Enhancement effect Detector Auger Radiation X- ray
(Print)
B-Gadolinium (Gd)
B-Absorption
O-Goniometer
B-Wavelength
N-First order reflection
G-Analysis
B-Standard deviation
I-Table top instrument
G-Optical path
N-Sequential spectrometers
I-Reference material
G-Metal
I-Malvern
O-Analyzing crystal
I-Grinding
N-Accuracy
O-Monochromator
O-We get to do an experiment
O-Rhodium (Rh)
I-Ionization energy
O-Infinite thickness
N-Multichannel analyzer
O-Energy dispersive
B-MAC
B-PANanlytical
N-There is a spelling mistake on the slide
N-WD-XRF
N-Lecturer passes around samples
N-Matrix effect
N-Heavy element
B-Sample preparation
G-Emission
N-Collimeter
B-Graphite crystal
O-Optics
B-Moseley’s law
G-Vacancy
I-Wavelength dispersive
B-We get to look up a table
N-Reproducibility
G-Gold (Au)
G-Resolution
O-Fusion
B-Diffraction crystal
G-Fluorescence
G-Bragg’s law
O-Compton
I-Gamma rays
G-We get to do a calculation
I-Absorption edge
G-Sequential XRF
O-L-shell
O-Spectral line
N-Pellet
G-Data processing
B-Enhancement
G-Limit of Detection
G-Compound
I-M-shell
I-Chemometric
I-Counts per second
I-Si-PIN
N-Elemental analysis
N-Gaussian
G-Ppm
N-X-ray tube
N-Someone sneezes
G-Specimen
O-Bremsstrahlung
O-Siegbahn notation
G-Homogeneous
B-Concentration
I-Scattering
N-Cup
N-Binding energy
I-Beads
B-Signal to noise
B-Calibration
B-Rayleigh
O-Vacuum
I-Peak area
I-Dispersion
B-Inner electron
I-Enhancement effect
O-Detector
B-Auger
O-Radiation
I-X-ray
