We demonstrate a promising type of microfabricated accelerometer that is based on the optical interferometer. The interferometer consists of surface-micromachined interdigital fingers that are alternately attached to a proof mass and support substrate. Illuminating the fingers with coherent light generates a series of diffracted optical beams. Subangstrom displacements between the proof mass and frame are detected by measuring the intensity of a diffracted beam. The structure is fabricated with a two-mask silicon process and detected with a standard laser diode and photodetector. We estimate that the minimum detectable acceleration is six orders of magnitude below the acceleration of gravity, i.e., 2 μg/Hz in a 1 Hz bandwidth centered at 650 Hz.

Topics
Measuring instruments, Proof mass, Surface micromachining, Geometrical optics, Interferometry, Optical interferometers, Photodetectors, Lasers
1.
M.
Stephens
,
Rev. Sci. Instrum.
64
,
2612
(
1993
).
Google Scholar
Crossref
Search ADS
 
2.
C. H.
Liu
,
A. M.
Barzilai
,
J. K.
Reynolds
,
A.
Partridge
,
T. W.
Kenny
,
J. D.
Grade
, and
H. K.
Rockstad
,
J. MEMS
7
,
235
(
1998
).
Google Scholar
 
3.
H. K.
Rockstad
,
T. W.
Kenny
,
J. K.
Reynolds
,
W. J.
Kaiser
, and
T. B.
Gabrielson
,
Sens. Actuators A
43
,
107
(
1994
).
Google Scholar
Crossref
Search ADS
 
4.
P. G. Hartwell, F. M. Bertsch, S. A. Miller, K. L. Turner, and N. C. MacDonald, 11th IEEE Workshop MEMS (1998), pp. 340–344.
5.
S. R.
Manalis
,
S. C.
Minne
,
A.
Atalar
, and
C. F.
Quate
,
Appl. Phys. Lett.
69
,
3944
(
1996
).
Google Scholar
Crossref
Search ADS
 
6.
H. K.
Rockstad
,
T. W.
Kenny
,
J. K.
Reynolds
,
W. J.
Kaiser
, and
T. B.
Gabrielson
,
Sens. Actuators A
53
,
227
(
1996
).
Google Scholar
Crossref
Search ADS
 
This content is only available via PDF.
© 2000 American Institute of Physics.
2000
American Institute of Physics
You do not currently have access to this content.