Patent Number: 
Section: claims

1. A semiconductor probe comprising:a tip having a semi-quadrangular pyramidal shape and doped with a first impurity;a cantilever having a free end on which the tip is disposed;a resistive region formed at a peak of the tip and lightly doped with a second impurity opposite in polarity to the first impurity; andfirst and second semiconductor electrode regions heavily doped with the second impurity formed on sloped sides of the tip and separated from each other, the first and second semiconductor electrode regions being electrically connected to the resistive region,wherein a vertical surface of the tip is aligned with the free end of the cantilever. 2. The semiconductor probe of claim 1, wherein the first impurity is a p-type impurity, and the second impurity is an n-type impurity. 3. The semiconductor probe of claim 1, wherein the first impurity is an n-type impurity, and the second impurity is a p-type impurity. 4. A method of fabricating a semiconductor probe, said semiconductor probe comprising:a tip having a semi-quadrangular pyramidal shape and doped with a first impurity;a cantilever having a free end on which the tip is disposed;a resistive region formed at a peak of the tip and lightly doped with a second impurity opposite in polarity to the first impurity; andfirst and second semiconductor electrode regions heavily doped with the second impurity formed on sloped sides of the tip and separated from each other, the first and second semiconductor electrode regions being electrically connected to the resistive region,wherein a vertical surface of the tip is aligned with the free end of the cantilever,said method comprising:forming a stripe-shaped mask layer on a substrate doped with a first impurity, and forming first and second electrode regions by heavily doping portions of the substrate not covered by the mask layer with a second impurity opposite in polarity to the first impurity;annealing the substrate to decrease a gap between the first and second semiconductor electrode regions, and forming resistive regions lightly doped with the second impurity at portions contiguous with the first and second semiconductor electrode regions;forming a stripe-shaped first photoresist layer orthogonal to the mask layer, and etching the mask layer such that the mask layer has a square shape;forming a second photoresist layer on the substrate to cover a portion of the first photoresist and define a cantilever region;forming the cantilever region by etching portions not covered by the first and second photoresist layers; andremoving the first and second photoresist layers, and forming a resistive tip having a semi-quadrangular pyramidal shape by etching portions of the substrate not covered by the mask layer. 5. The method of claim 4, wherein said annealing of the substrate further comprises diffusing the first and second semiconductor electrode regions to obtain resistive regions which contact each other to form a tip forming portion. 6. The method of claim 4, wherein said forming of the second photoresist layer further comprises depositing the second photoresist layer to cover the first photoresist layer, and patterning the second photoresist layer such that the patterned second photoresist layer covers the portion of the first photoresist layer on the mask layer. 7. The method of claim 4, wherein said forming of the resistive tip having the semi-quadrangular pyramidal shape further comprises:forming an oxide layer of a predetermined thickness at a surface of the substrate by heating the substrate, from which the patterned mask layer is removed, in an oxygen atmosphere; andsharpening an end of the resistive regions by removing the oxide layer. 8. The method of claim 7, wherein said heating of the substrate forms a tip forming portion by diffusing the first and second semiconductor electrode regions to obtain resistive regions. 9. The method of claim 4, wherein the first impurity is a p-type impurity, and the second impurity is an n-type impurity. 10. The method of claim 4, wherein the first impurity is an n-type impurity, and the second impurity is a p-type impurity.