Specific Process Knowledge/Characterization/XPS: Difference between revisions
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XPS is a surface sensitive and non destructive technique used for elemental composition | XPS is a surface sensitive and non destructive technique used for analysis of the elemental composition. | ||
Only the outermost atomic layers (some nanometers) are probed, but with an ion etch there is the possibility to probe deeper laying layers. | |||
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[[image:Si spectra Labadvisor.JPG|350x350px|left|thumb|XPS Si2p spectrum of Si sample]] | [[image:Si spectra Labadvisor.JPG|350x350px|left|thumb|XPS Si2p spectrum of Si sample]] | ||
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===Depth profiling=== | ===Depth profiling=== | ||
[[Image:Stochiometry 20110510.JPG|350x350px|left|thumb|Stochiometry as a function of film depth (etch time). The relationship between Cr and Ni is quite stabel through the film. Measurements done with XPS-ThermoScientific ]] | [[Image:Stochiometry 20110510.JPG|350x350px|left|thumb|Stochiometry as a function of film depth (etch time). The relationship between Cr and Ni is quite stabel through the film. Measurements done with XPS-ThermoScientific ]] | ||
The analysis is made on a choosen spot on the sample surface (detected with the system camera). The tehchnique, is as written above, very surface sensitive and probes only the top nanometers og the sample. | |||
==A rough overview of XPS-ThermoScientific characteristics== | ==A rough overview of XPS-ThermoScientific characteristics== |
Revision as of 07:42, 18 October 2011
XPS-ThermoScientific
A X-ray Photoecectron Spectroscopy (XPS) system can be used at Danchip. The system is a Thermo K-Alpha system, and is found in LabManager under the name XPS-ThermoScientific.
Elemental analysis
The XPS technique can be used to do elemental analysis. A comparision about techniques and intsrumens used for elemental analysis at Danchip can be found on the page Element analysis.
XPS technique
XPS is a surface sensitive and non destructive technique used for analysis of the elemental composition. Only the outermost atomic layers (some nanometers) are probed, but with an ion etch there is the possibility to probe deeper laying layers.
In the XPS spectrometer system the probed samples are irradiated by photons with a specific energy, and the photoelectrons that leaves the sample are detected. The energy levels of the electrons are elemental specific, and by measuring the energy of the outgoing electrons, it is possible to detect which elements that are present in a sample.
The technique can be used for different purposes:
Elemental composition
Each element give a specific "finger-print" in the XPS spectrum. The electrons in the atoms have different binding energies for all elements, and when measuring a photoelectron spectrum over a wide range of energies, the main line from each element will be placed at a specific energy in the spectra.
Here is shown a spectra measured over the energy range 0-1350 eV, and characteristic lines from three elements (C,O and Si) are seen and indicated in the spectrum.
The instrument program can use this information to give an estimate of the sample composition, giving the atomic procentage of the different elements.
Chemical state
Depth profiling
The analysis is made on a choosen spot on the sample surface (detected with the system camera). The tehchnique, is as written above, very surface sensitive and probes only the top nanometers og the sample.
A rough overview of XPS-ThermoScientific characteristics
Purpose | Chemical analysis |
|
---|---|---|
Performance | Spot size | Can be set between 30µm - 400µm |
Probing depth | Depending on probed element. Max probe depth lies within 10-200 Å. | |
Resolution | Dependent on probed elements. Concentrations down to about 0,5 atomic % can in some cases be detected. | |
Charge compensation |
Flood gun can be used for charge compensation of non conductive samples | |
Finding structures | Choose measuring spot from camera image (magnified) | |
Depth profiling | Purpose | With ion beam etch the top layer of the material can be removed, to do a depth profiling |
Ion beam size | About 0,3x1 mm | |
Substrates | Substrate size |
Max 60x60 mm |
Substrate thickness |
Max height about 20 mm |