Title :
Fabrication of 200 nm field effect transistor by X-ray lithography with a laser-plasma X-ray source
Author :
Reeves, C.M. ; Turcu, I.C.E. ; Prewett, P.D. ; Gundlach, A.M. ; Stevenson, J.T. ; Walton, A.J. ; Ross, A.W.S. ; Lawes, R.A. ; Anastasi, P. ; Burge, R. ; Mitchell, P.
Author_Institution :
Dept. of Electr. Eng., Edinburgh Univ., UK
fDate :
12/7/1995 12:00:00 AM
Abstract :
The critical dimensions required for 1 Gbit semiconductor technology will be beyond the capabilities of optical lithography. The laser-generated plasma X-ray source provides an alternative to synchrotron radiation for lithography, providing a quasi point source of radiation at ~1 nm wavelength. The 180 nm lithography required for 1 Gbit has been demonstrated by exposure of a novel commercial resist using a laboratory prototype plasma X-ray source. A MOSFET with 200 nm gate length has been produced using the new technology in mix-and-match with conventional methods. The device shows good electrical characteristics, demonstrating the promise of this approach
Keywords :
MOSFET; X-ray lithography; X-ray production; semiconductor technology; 200 nm; MOSFET; X-ray lithography; electrical characteristics; gate length; laser-plasma X-ray source; mix-and-match; quasi point source;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19951462
