X-ray Microanalysis An inelastic collision between a primary beam electron and an inner orbital electron results in the emission of that electron from the atom, the energy released from an electron replacement event produces a photon with an energy exactly equal to the drop in energy. د. عمر عبد القادر

X-ray Microanalysis X-rays can have an energy nearly equal to that of the primary beam electron and thus can escape from very deep within the specimen د. عمر عبد القادر

X-ray Microanalysis Energy Dispersive Spectroscopy (EDS) د. عمر عبد القادر

When an electron from a K-shell is replaced by one from the next closest shell (L), it is designated as a Kα event د. عمر عبد القادر

When an electron from a K-shell is replaced by one from the second closest shell (M), it is designated as a Kβ event د. عمر عبد القادر

When an electron from a L-shell is replaced by one from the next closest shell (M), it is designated as a Lα event. The K shell will never donate its electron as this would require an increase in energy, not a drop. د. عمر عبد القادر

X-ray Microanalysis Certain events such as Mα, Lβ, and Kγ are only possible in atoms of sufficient atomic weight د. عمر عبد القادر

X-ray Microanalysis There are actually a wide variety of subsets of these X-rays since each electron shell has multiple orbitals د. عمر عبد القادر

An X-ray spectrum for a sample is composed of all the possible signals for that given set of elements. These will differ in terms of energies (KeV) and probabilities (likelihood) scored as number of such signals collected over a given period of time. # Counts X-ray Energy in KeV د. عمر عبد القادر

Each element has a family of characteristic X-rays associated with it د. عمر عبد القادر

Positive identification of an element is best done by collection of the entire family of peaks for a given element. د. عمر عبد القادر

"Bremsstrahlung" means "braking radiation" and comes from the original German to describe the radiation which is emitted when electrons are decelerated or "braked" when they interact with the specimen. Although they contribute to the total X-ray signal they contain no useful information because their energies are nonspecific and therefore are considered as part of the background. د. عمر عبد القادر

Bremsstrahlung X-rays are the major part of the continuum X-ray signal that can escape from the deepest portion of the interaction region. د. عمر عبد القادر

Chrysotile Asbestos Fibers د. عمر عبد القادر

Chrysotile Asbestos Fibers د. عمر عبد القادر

Bullet fragments (blue) can be identified on cloth fibers and distinguished from other metal pieces by their elemental composition د. عمر عبد القادر

Gunshot Residue (GSR) Analysis د. عمر عبد القادر

Gunshot Residue (GSR) Analysis د. عمر عبد القادر

Gunshot Residue (GSR) Analysis  Particles are very characteristic, therefore presence of these particles forms evidence of firing a gun.  Particles normally consist of Pb (lead), Sb (antimony) and Ba (barium).  New ammunition: environmentally friendly (no Sb). د. عمر عبد القادر

The proportion of elements present in GSR differ slightly and databases of GSR from different manufacturers can be used to identify what ammunition was used in a crime. GSR is often found on criminals and also on victims if shot at close range. د. عمر عبد القادر

X-ray Mapping د. عمر عبد القادر

X-ray analysis of paint fragments Combined with backscatter imaging and X- ray maps of (a) Au, (b) Ba and (c) Ca different layers of paint can be identified د. عمر عبد القادر

EDS = Energy Dispersive Spectroscopy WDS = Wavelength Dispersive Spectroscopy X-ray Detection د. عمر عبد القادر

EDS WDS د. عمر عبد القادر

Energy Dispersive Spectroscopy (EDS) د. عمر عبد القادر

Lithium doped Silicon (SiLi) crystal detector acts as a semiconductor that carries current in a rate proportional to the number of ionization events and acts as an indirect measurement of the energy contained in the X-ray. د. عمر عبد القادر

Absorbed X-rays create an ionization event similar to that of a scintillator د. عمر عبد القادر

Each ionized atom of silicon absorbs 3.8 eV of energy, so an X-ray of 3.8 KeV will ionize approximately 1000 silicon atoms. د. عمر عبد القادر

Expanded view of an EDS detector د. عمر عبد القادر

Energy Dispersive Spectroscopy Collimator to limit BSE and stray X-rays Window usually made of beryllium (limited to sodium, atomic number 11) or thin plastic to detect down to boron (Atomic number 5) protects cooled crystal from air. Detector crystal silicon wafer with lithium added in. For each 3.8 eV from an X-ray, produce an electron and hole. This produces a pulse of current, the voltage of which is proportional to the X-ray energy. Must keep the crystal at LN temperature to keep noise to a minimum. د. عمر عبد القادر

Multichannel Analyzer (MCA) The changes in conductivity of the SiLi crystal can be counted for a given time and displayed as a histogram using a multichannel analyzer. د. عمر عبد القادر

Multichannel Analyzer (MCA) MCA consists of an analog to digital converter which “scores” the analog signal coming from the field effect transistor (FET). Newer systems employ a digital pulse processor which converts the signal on the fly Then Now د. عمر عبد القادر

Factors affecting signal collection Distance between detector and X-ray source, angle at which detector is struck, and volume of signal collected. د. عمر عبد القادر

For a given angle of electron incidence, the length of the absorption path is directly proportional to the cosecant of the take-off angle, φ Take-off Angle د. عمر عبد القادر

Solid Angle The solid angle Ω of a detector is defined as angle of the cone of signal entering the detector. The greater the size of the detector surface area the greater will be the solid angle. د. عمر عبد القادر

Larger SiLi crystals will be able to sample a larger volume of signal (better Ω) but because of imperfections in the crystal they have slightly greater noise and thus slightly lower resolution. د. عمر عبد القادر

One can also increase the solid angle by placing the detector closer to the source. One then tries to maximize both the solid angle and the take-off angle. د. عمر عبد القادر

One reason that the final lens of an SEM is conical in shape is so that the EDS detector can be positioned at a high take-off angle and inserted close to the specimen for a high solid angle. د. عمر عبد القادر

William Henry Bragg 1862 – 1942 Nobel Prize in Physics 1915 X-ray diffraction in a crystal. Like an electron beam an X-ray has its own wavelength which is proportional to its energy د. عمر عبد القادر

Crystal: A solid formed by the solidification of a chemical and having a highly regular atomic structure. May be composed of a single element (C = diamond) or multiple elements. د. عمر عبد القادر

Cubic Hexagonal د. عمر عبد القادر

If a wavelength enters a crystal at the appropriate angle it will be diffracted rather than being absorbed or scattered by the crystal د. عمر عبد القادر

For a given wavelength λ there is a specific angle θ (Bragg’s angle) at which diffraction will occur. Bragg’s angle is determined by the d-spacing (interplanar spacing) of the crystal and the order of diffraction (n = 1, 2, 3….). د. عمر عبد القادر

A WDS detector takes advantage of the fact that an X-ray of a given wavelength can be focused by a crystal if it encounters the crystal at the proper Bragg’s angle. د. عمر عبد القادر

To better accomplish this crystals are bent and ground to form a curved surface which will bring all the diffracted X-ray wavelengths to a single focal point, thus the crystal acts as a focusing lens. د. عمر عبد القادر

To change the Bragg’s angle the diffracting crystal and detector can be moved together relative to the stationary specimen along a circle known as the Roland Circle. د. عمر عبد القادر

WDS detectors are quite large and must be positioned around the specimen chamber at an angle to take advantage of maximum take-off angle and maximum solid angle د. عمر عبد القادر

A Microprobe is a specialized SEM that is outfitted with an EDS detector and array of several WDS detectors. د. عمر عبد القادر

Different diffracting crystals can only diffract certain wavelengths (even with the changes in Bragg’s angle) so an array of detectors must be used if one is to be able to detect K, L, and M events for many different elements. Since WDS detectors do not need to be cooled they are windowless and can detect down to Berylium LiF = Lithium fluoride; PET =Pentaerythritol; and TAP = Thallium acid phthalate. د. عمر عبد القادر

Specimen preparation for WDS Samples must be conductive since high KeV is used (Carbon coating if not naturally conductive) Samples must be flat (polished) as geometry of sample to detector is crucial and also minimizes artifacts when doing quantitative measurements. د. عمر عبد القادر

WDS vs. EDS د. عمر عبد القادر

A comparison of two spectra collected with EDS and WDS shows how peak overlap and energy spread can serve to obscure the information in an EDS spectrum د. عمر عبد القادر

Quantitative X-ray Analysis If one wants to quantify the relative amounts of different elements present in a complex sample one has to account for a number of factors and carry out a correction of the data د. عمر عبد القادر

One must account for other elements present in the sample and whether their individual peaks overlap with each other creating a “shoulder” that can mask the presence of one element or distort the midpoint of another. د. عمر عبد القادر

Several methods to correct the spectra. ZAF takes into account the Atomic Weight (Z), effects of Absorbance (A) and effects of Fluorescence (F) in adjusting the data to give the correct values. د. عمر عبد القادر

Applications of X-ray Microanalysis Secondary Electron د. عمر عبد القادر

EDS can be added as a component of a TEM Requires an angled detector (for take-off angle) and scan coils in the column to function as a Scanning Transmission Electron Microscope or STEM. د. عمر عبد القادر

EDS can be used to identify elements present vacuoles or inclusions. Must take into account elements present in the embedding medium د. عمر عبد القادر

X-ray microanalysis enables the SEM and TEM to be used as analytical instruments. Limitations include the quantities of given element and an inability to distinguish isotopes. By placing a focussed beam over an object allows one to carry out microchemical analysis on very small or very discrete objects or to map the presence of various elements within a specimen. د. عمر عبد القادر