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