Specific Process Knowledge/Characterization/Four-Point Probe: Difference between revisions

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==Four-Point Probe from Veeco==
==Four-Point Probe from Veeco==


The Four-Point Probe is a Veeco FPP-5000 for I/V measurement. The main purpose is to measure resistance and resistivity on a 4" silicon wafer. But can also be used to find thickness of thin layers or test if is a N- or P-type wafer. [[Image:4pointprobe.jpg|thumb|300x300px|Four point probe: positioned in 346-904]]
'''The Four-Point Probe is a Veeco FPP-5000'''. The main purpose is to measure resistance and resistivity on a 4" silicon wafer. But can also be used to find thickness of thin layers or test if is a N- or P-type wafer. [[Image:4pointprobe.jpg|thumb|300x300px|Four point probe: positioned in 346-904]]


It works only for 4" wafers because a special holder is need.   
It works only for 4" wafers because a special holder is need.   

Revision as of 10:29, 8 August 2019

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Four-Point Probe

Probe diagram (from https://www.ossila.com/pages/sheet-resistance-theory)

The set-up of the four point probe is four the tungsten carbide electrodes/probes.The power source (DC) sends a current through the two outer electrodes. A digital voltage meter (DVM) measures the potential drop between the two inner electrodes.

The sheet resistance can then be calculated using the equation below:

Unit ohms/square

This equation is only valid if: i) the material being tested is no thicker than 40% of the spacing between the probes, and ii) the lateral size of the sample is sufficiently large. If this is not the case, then geometric correction factors are needed to account for the size, shape, and thickness of the sample.

Bulk resistivity for wafers and films = sheet resistance x wafer thickness in cm (Unit ohm.cm)

Bulk resistivity for a semi-infinite volume = 2 x π x S x V/I where is S is the probe spacing in cm (Unit ohm.cm)

A sample is usually defined as a “semi-infinite volume” if it extends to infinity in all directions below a plane on which four probes are located.

Note:

Vol­ume Resis­tiv­i­ty = Vol­ume Resis­tance = Bulk Resis­tiv­i­ty = Bulk Resis­tance

Sheet Resis­tiv­i­ty = Sheet Resis­tance = Sur­face Resis­tiv­i­ty = Sur­face Resis­tance


Limits of the Measurement

1. The material must be capable of being probed, i.e. the probes must be able to make ohmic contact with the material e.g. Germanium, Silicon and metals. Materials such as Gallium Arsenide cannot normally be probed unless it is doped and measured with special measuring techniques such as that in the Four Dimensions Inc. GaAs probe.

2. Very low resistivity material e.g. aluminum, gold, platinum may require the maximum current from the current source to achieve a reading on the digital voltage display. Only very thin films from 10’s nm up to 1 micron thickness can be measured. Sample with expected sheet resistance less than 1 ohm/square may not possible to measure.

3. High resistivity material e.g. ion-implanted Silicon wafer, silicon on sapphire, can be measured using very low current (about 1uA or less) and trying to avoid a greater voltage indication than 200mV. Probably sheet resistance up to 107 ohms/square can be measured.

4. Low measurement result could be from electrical noise due to poor contact condition, thermally induced voltages, actinic effects, offset voltages produced by the devices in the current source etc.


There are two four point probes at Nanolab. Four point probe from Jandel and Four-Point Probe from Veeco.

Four-Point Probe from Jandel

Four point probe: positioned in cleanroom D-3

The Four point probe is manufactured by Jandel Engineering Limited and using Jandel probe head, a cylindrical probe type B: 1.00 mm spacing, 100 micron tip radius, 100g load linear is being use at Nanolab and the RM3000+ Test Unit which can supply constant current between 10nA and 99.99mA, and measure voltage from 0.01mV to 1250mV. The unit supplies a constant current and can display the resultant voltage, sheet resistance or volume resistivity depending which function has been chosen. For calculation of volume resistivity (for wafers or bulk samples) it is possible to input wafer thickness or probe spacing as required.

For sheet resistance measurements, the quoted range is 1 milliohm/square to 5x108 ohms/square. Measurements outside this range are possible but with possible reduced accuracy. For volume (bulk) resistivity measurements, the quoted range is 1 milliohm.cm to 1x106 ohm.cm. Measurements outside of this range may be possible but will depend on sample type e.g. whether the sample is a thin layer.

Multiposition Probe stand can measure on wafers up to 200mm diameter. The Θ movement clicks in four positions at 90 degrees and the linear movement in up to 10 positions giving repeat placement accuracy of +/- 1mm.

Four-Point Probe from Veeco

The Four-Point Probe is a Veeco FPP-5000. The main purpose is to measure resistance and resistivity on a 4" silicon wafer. But can also be used to find thickness of thin layers or test if is a N- or P-type wafer.

Four point probe: positioned in 346-904

It works only for 4" wafers because a special holder is need.


The user manual, technical information and contact information can be found in LabManager:

Four point probe

Overview of the performance of the Four-Point Probe and some process related parameters

Purpose Resistance and resistivity measurement
Process parameter range Process Temperature
  • Room temperature
Process pressure
  • 1 atm
Substrates Batch size
  • 1 4" wafer per measurement
  • 1 6" wafer per measurement
Substrate material allowed
  • Silicon wafers