Transport at surface nanostructures measured by four-tip STM

For in situ measurements of local electrical conductivity of well-defined crystal surfaces in ultrahigh vacuum, we have developed two kinds of microscopic four-point probe methods. One is a ‘four-tip STM prober’, in which independently driven four tips of scanning tunneling microscope (STM) are used...

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Bibliographic Details
Published in:Current applied physics 2002-12, Vol.2 (6), p.465-471
Main Authors: Hasegawa, Shuji, Shiraki, Ichiro, Tanabe, Fuhito, Hobara, Rei
Format: Article
Language:English
Subjects:
Scanning electron microscopy
Scanning tunneling microscopy
Surface conductivity
Surface reconstruction
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Summary:For in situ measurements of local electrical conductivity of well-defined crystal surfaces in ultrahigh vacuum, we have developed two kinds of microscopic four-point probe methods. One is a ‘four-tip STM prober’, in which independently driven four tips of scanning tunneling microscope (STM) are used for four-point probe conductivity measurements. The probe spacing can be changed from 500 nm to 1 mm. The other one is monolithic micro-four-point probes, fabricated on silicon chips, whose probe spacing is fixed around several μm. These probes were installed in scanning-electron-microscopy/electron-diffraction chambers, in which the structures of sample surfaces and probe positions were in situ observed. The probes can be positioned precisely on aimed areas on the sample with aid of piezo-actuators. With these machines, the surface sensitivity in conductivity measurements has been greatly enhanced compared with macroscopic four-point probe method. Then the conduction through the topmost atomic layers (surface-state conductivity) and influence of atomic steps upon conductivity could be directly measured. The STM prober is mainly described here.
ISSN:1567-1739
1878-1675
DOI:10.1016/S1567-1739(02)00160-8