Matrix effect Data processing Absorption edge Collimeter WD- XRF Metal Sequential spectrometers There is a spelling mistake on the slide Counts per second Concentration Specimen Someone sneezes Elemental analysis We are at slide 22 Cup Siegbahn notation We get to look up a table Resolution Emission We get to do a calculation Reference material Wavelength Sample preparation Spectral line ED- XRF Detector Scattering Spectrometer Normalization Electron Optical path Calibration Vacancy Sensitivity Reproducibility Standard deviation Vacuum L- shell Enhancement effect Absorption Tin (Sn) Auger Bremsstrahlung First order reflection Sequential XRF We are at slide 48 Rhodium (Rh) Spectrum Compton Spinner Analyzing crystal Lecturer passes around samples Electron Si- PIN Enhancement Limit of Quantitation We get to do an experiment Beads Table top instrument Energy dispersive Multichannel analyzer X-ray tube Binding energy Monochromator Accuracy Moseley’s law Compound Loss of ignition (LOI) Signal to noise Analysis M- shell Malvern Limit of Detection Dispersion Chemometric Diffraction crystal Wavelength dispersive MAC X- ray Bragg’s law Matrix effect Data processing Absorption edge Collimeter WD- XRF Metal Sequential spectrometers There is a spelling mistake on the slide Counts per second Concentration Specimen Someone sneezes Elemental analysis We are at slide 22 Cup Siegbahn notation We get to look up a table Resolution Emission We get to do a calculation Reference material Wavelength Sample preparation Spectral line ED- XRF Detector Scattering Spectrometer Normalization Electron Optical path Calibration Vacancy Sensitivity Reproducibility Standard deviation Vacuum L- shell Enhancement effect Absorption Tin (Sn) Auger Bremsstrahlung First order reflection Sequential XRF We are at slide 48 Rhodium (Rh) Spectrum Compton Spinner Analyzing crystal Lecturer passes around samples Electron Si- PIN Enhancement Limit of Quantitation We get to do an experiment Beads Table top instrument Energy dispersive Multichannel analyzer X-ray tube Binding energy Monochromator Accuracy Moseley’s law Compound Loss of ignition (LOI) Signal to noise Analysis M- shell Malvern Limit of Detection Dispersion Chemometric Diffraction crystal Wavelength dispersive MAC X- ray Bragg’s law
(Print)
Matrix effect
Data processing
Absorption edge
Collimeter
WD-XRF
Metal
Sequential spectrometers
There is a spelling mistake on the slide
Counts per second
Concentration
Specimen
Someone sneezes
Elemental analysis
We are at slide 22
Cup
Siegbahn notation
We get to look up a table
Resolution
Emission
We get to do a calculation
Reference material
Wavelength
Sample preparation
Spectral line
ED-XRF
Detector
Scattering
Spectrometer
Normalization
Electron
Optical path
Calibration
Vacancy
Sensitivity
Reproducibility
Standard deviation
Vacuum
L-shell
Enhancement effect
Absorption
Tin (Sn)
Auger
Bremsstrahlung
First order reflection
Sequential XRF
We are at slide 48
Rhodium (Rh)
Spectrum
Compton
Spinner
Analyzing crystal
Lecturer passes around samples
Electron
Si-PIN
Enhancement
Limit of Quantitation
We get to do an experiment
Beads
Table top instrument
Energy dispersive
Multichannel analyzer
X-ray tube
Binding energy
Monochromator
Accuracy
Moseley’s law
Compound
Loss of ignition (LOI)
Signal to noise
Analysis
M-shell
Malvern
Limit of Detection
Dispersion
Chemometric
Diffraction crystal
Wavelength dispersive
MAC
X-ray
Bragg’s law
