Osiander / MEMS and microstructures in Aerospace applications  DK3181_c010 Final Proof page 228 1.9.2005 12:13pm




                   228                       MEMS and Microstructures in Aerospace Applications


                   41. Judy, M., Evolution of integrated inertial MEMS technology, Technical Digest of the
                       Solid-State Sensor, Actuator and Microsystems Workshop, Hilton Head, SC, 27, 2004.
                   42. Smit, G.N., Potential applications of MEMS inertial measurement units, in Helvaijan, H.
                       (ed.), Microengineering Technology for Space Systems, The Aerospace Press, Los
                       Angeles, CA, 1997, 35.
                   43. Bernstein, J., Miller, R., Kelley, W., and Ward, P., Low-noise MEMS vibration sensor
                       for geophysical applications, Journal of Microelectromechanica Systems 8 (4), 433,
                       1999.
                   44. Peczalski, A. et al., Micro-wheels for attitude control and energy storage in small
                       satellites, IEEE Aerospace Conference Proceedings 5, 52483, 2001.
                   45. Lee, E., A micro high-temperature superconductor-magnet flywheels with dual function
                       of energy storage and attitude control, Proceedings of IEEE Sensors 1, 757, 2002.
                   46. Durfee, D. et al., Atom interferometer inertial force sensors, Record 2000 Position,
                       Location and and Navigation Symposium, 395, 2000.
                   47. Gustavson, T. et al., Atom interferometer inertial force sensors, IQEC, Proceedings of
                       the 1999 Quantum Electronics and Laser Science Conference (QELS ‘99), 20, 1999.
                   48. Kasevich, M., Atom interferometry with ultra-cold atoms, Conference on Quantum
                       Electronics and Laser Science (QELS) — Technical Digest Series 74, 42, 2002.
                   49. McGuirk, J.M. et al., Sensitive absolute-gravity gradiometry using atom interferometry,
                       Physical Review A — Atomic, Molecular, and Optical Physics 65 (3B), 033608, 2002.
                   50. Eriksson, S. et al., Micron-sized atom traps made from magneto-optical thin films,
                       Applied Physics B: Lasers and Optics 79 (7), 811, 2004.
                   51. Moktadir, Z. et al., Etching techniques for realizing optical micro-cavity atom traps on
                       silicon, Journal of Micromechanics and Microengineering Papers from the 14th Micro-
                       mecahnics Europe Workshop (MM‘03) 14 (9), 82, 2004.





































                   © 2006 by Taylor & Francis Group, LLC