J. Itoh et al., ULTRASTABLE EMISSION FROM A METAL-OXIDE-SEMICONDUCTOR FIELD-EFFECT TRANSISTOR-STRUCTURED SI EMITTER TIP, Applied physics letters, 69(11), 1996, pp. 1577-1578
A silicon field emitter tip with a dual-gate metal-oxide-semiconductor
field-effect transistor (MOSFET) structure was fabricated and demonst
rated. The present tip structure is just the same as an n-channel MOSF
ET whose drain was replaced by a cone-shaped Si tip. Two coplanar gate
s of 0.3-mu m-thick Nb are made on a 0.6-mu m-thick thermally oxidized
SiO2 insulator between the source and the tip and make inversion laye
rs in ap-type Si substrate under each gate. One of the gates has a 1.8
-mu m-diam aperture surrounding the tip for extraction of electrons fr
om the tip. The other is 3 mu m wide and 300 mu m long and is separate
d by 2 mu m from this gate. Ultrastable emission of about 0.3 mu A was
demonstrated with a single tip for one day. (C) 1996 American Institu
te of Physics.