Furnace aa. Today is Guy Fawkes Day L’vov platform furnace Sample is placed on platform Temp of platform rises more slowly than that of walls.

Furnace aa

Today is Guy Fawkes Day

L’vovplatform furnace

• Sample is placed on platform

• Temp of platform rises more slowly than that of walls

• Atomization is delayed until temp within furnace is nearly constant

• Helps eliminate matrix effects

Third Stage -Atomization

• Temperature depends on the element

• Generally 1000 – 3000 oC

• The atoms have a very short residence time in the light path because they diffuse easily

• The inert gas flow is often stopped briefly at this point so that sample is not flushed away too quickly

Absorption

• Measured during atomization• Want fast atomization so there is a large

concentration of free atoms• Transient signal as compared to

continuous from flame• Detects 10-10 – 10-13 g sample• Relative precision 5-10%• Usually need background correction

because of matrix interference

NSA- a particular problem in furnaces

• The interference is non-atomic and therefore broad

• It arises from– Molecular absorption– Light scattering• Worse in furnace than flame because the

molecules are not decomposed as thoroughly in the furnace – flame has heat and chemistry

Two-line Correction Method

• A line from HCL can be used as reference – but can’t be absorbed by sample

• Must be near analyte line

• From Ne or Ar or impurity

• Suitable line often not available

Continuum Source Correction Method

• D2 lamp provides continuum of radiation

• Passes through sample alternately with light from HCL (via chopper)

• Fraction of continuum absorbed by atoms is negligible

• Therefore gives

• absorbance by

• background

Zeeman Background Correction

•Zeeman applies to the shifting of energy levels of atoms & molecules which occurs in a magnetic field.When atomic vapour is exposed to a strong magnetic field, a splitting of electronic energy levels of atoms occurs. •This forms several absorbance lines for each electronic transition.•The sum of the absorbance for all these lines is equal to the absorbance of the original unshifted line.•When a magnetic field is applied parallel to the light path through a flame or furnace, the absorption line is split into 3 lines.•The central line has the original wavelength with an absorbance twice that of the satellite line.

The Zeeman Effect is based on the differing response of these two types of absorbance peaks to polarised radiation.

The control line only absorbs radiation that is plane polarised in a direction parallel to the external magnetic field.

In contrast the satellite peaks absorb radiation polarised at 90 degrees to the field.

• Light from the HCL is passed through a rotating polariser, which separates the beam into 2 components, plane polarised at 90 degrees to one another.

• These beams pass through the atom cell, which has a magnetic field applied, resulting in shift of absorbancies.

• When incident radiation is plane polarised in a direction parallel to magnetic field, the central line can absorb the radiation. Absorbance is due to the analyte metal & background absorbance.

• When incident radiation is polarised at 90 degrees to direction of applied field, the central line no longer absorbs. But back ground still absorbs.

• The data aquisition system is programmed to subtract the two signals giving the corrected signal.

Advantages of Zeeman and Smith-Hieftje over Background Correction

• Background corrected more accurately

• Corrected at close to absorption • Don’t need extra lamp

• Single light source eliminates alignment problems

• Can correct to higher levels of NSA

Disadvantages

• Some loss of sensitivity for most elements

• Greater calibration curvature

• Increased cost for Zeeman

• Smith-Hieftje requires additional power supply and may reduce lamp life

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