We present a scheme for the fabrication of ultrashort channel length metal-oxide-semiconductor field-effect transistors (MOSFETs) involving nanolithography and molecular-beam epitaxy. The active channel is undoped and is defined by a combination of nanometer-scale patterning and anisotropic etching of an layer grown on a silicon on insulator wafer. The method is self-limiting and can produce MOSFET devices with channel lengths of less than 10 nm. Measurements on the first batch of n-MOSFET devices fabricated with this approach show very good output characteristics and good control of short-channel effects.
REFERENCES
1.
H. Wong, D. Frank, and P. Solomon, IEEE Tech. Dig., Proceedings of the International Electron Device Meeting (1998), p. 407.
2.
G. Timp, J. Bude, K. K. Bourdelle, J. Garno, A. Ghetti, H. Gossmann, M. Green, G. Forsyth, Y. Kim, R. Kleiman, F. Klemens, A. Kornblit, C. Lochstampfor, W. Mansfield, S. Moccio, T. Sorsch, D. M. Tennant, W. Timp, and R. Tung, IEEE Tech. Dig., Proceedings of the International Electron Device Meeting (1999), p. 55.
3.
H.
Kawaura
, T.
Sakamoto
, T.
Baba
, Y.
Ochiai
, J.
Fujita
, S.
Matsui
, and J.
Sone
, IEEE Electron Device Lett.
19
, 74
(1998
).4.
K.
Ishii
, E.
Suzuki
, S.
Kanemaru
, T.
Maeda
, K.
Nagai
, and T.
Sekigawa
, Electron. Lett.
34
, 2069
(1998
).5.
Y.
Omura
, K.
Kurihara
, Y.
Takahashi
, T.
Ishiyama
, Y.
Nakayima
, and K.
Izumi
, IEEE Electron Device Lett.
18
, 190
(1997
).6.
7.
D. Frank, S. Laux, and M. Fischetti, IEEE Tech. Dig., Proceedings of the International Electron Device Meeting (1992), p. 553.
8.
9.
10.
11.
12.
S. C.
Minne
, H. T.
Soh
, Ph.
Flueckiger
, and C. F.
Quate
, Appl. Phys. Lett.
66
, 703
(1995
).13.
14.
H.
Seidel
, L.
Csepregi
, A.
Heuberger
, and H.
Baumgärtel
, J. Electrochem. Soc.
137
, 3612
(1990
).15.
J.
Appenzeller
, J.
del Alamo
, R.
Martel
, K.
Chan
, and P.
Solomon
, Electrochem. Solid-State Lett.
3
, 84
(2000
).16.
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2000
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