[1] D. A. Jackson, R. Priest, A. Dandridge, and A. B. Tveten, “Elimination of drift in a single mode optical fiber interferometer using a piezo-electrically stretched coiled fiber,” Applied Optics, vol. 19, no. 17, pp. 2926-2929, 1980.

[2] D. A. Jackson, A. C. Lewin, A. D. Kersey, M. Corke, and J. D. C. Jones, “Open air path/fiber interferometer for remote vibration analysis,” presented at European Conference on Sensors and their Applications, UMIST, Manchester, September, 1983.

[3] D. A. Jackson, A. D. Kersey, M. Corke, and J. D. C. Jones, “Pseudo-heterodyne detection scheme for optical interferometers,” Electronics Letters, vol. 18, no. 25, pp. 1081-1083, 1982.

[4] A. C. Lewin, A. D. Kersey, and D. A. Jackson, “Non-contact surface vibration analysis using a monomode fiber interferometer incorporating an open air path,” Journal of Physics E, vol. 18, no. 7, pp. 604-608, 1985.

[5] A. C. Lewin, A. D. Kersey, and D. A. Jackson, “Two wide-dynamic-range signal-recovery schemes for the fiber-optic gyroscope,” in IEE Proceedings (opto-electronics), vol. 132, no. 5, pp. 271-276, 1985.

[6] H. Selbach and A. C. Lewin, “Differentielles fiberoptisches laser Doppler vibrometer zur Schwingungsanalyse,” presented at Laser 87 - Optoelectronics in Engineering, Munich, Germany, October, 1987.

[7] A. C. Lewin and K. V. Wichdorff, “Fiber links for optical instrumentation,” Laser und Optoelektronik, vol. 20, no. 4, pp. 54, 1988.

[8] A. C. Lewin, F. Mohr, and H. Selbach, “Heterodyne Interferometer for Vibration analysis,” Technisches Messen -tm, no. 9, pp. 335-345, 1990.

[9] A. C. Lewin, “Compact laser vibrometer for industrial and medical applications”, SPIE (3rd International Conference on Vibration Measurement by Laser Techniques: advances and applications), vol. 3411, pp. 61-67, 1998.

[10] A. C. Lewin and G. Siegmund, “The implications of system ‘sensitivity’ and ‘resolution’ on an ultrasonic detecting LDV,” SPIE (1st International Conference on Vibration Measurement by Laser Techniques: Advances and Applications), vol. 2358, pp. 292-304, 1994.

[11] D. Robert and A. C. Lewin, “Scanning laser vibrometry applied to the biomechanical study of a small auditory system,” SPIE (3rd International Conference on Vibration Measurement by Laser Techniques: Advances and Applications), vol. 3411, pp. 564-571, 1998.

[12] A. C. Lewin and F. Ritter, “Laser diode based pseudo-heterodyne interferometer for on-line process control of a wire bonder,” SPIE, vol. 4072, pp. 8-18, 2000.

[13] A. C. Lewin, V. Roth, and G. Siegmund, “New concept for interferometric measurement of rotational vibrations,” SPIE (1st International Conference on Vibration Measurement by Laser Techniques: Advances and Applications), vol. 2358, pp. 24-36, 1994.

[14] S. C. Woods, A. C. Lewin, et al., “Measuring wavefront properties,” Patent WO 03074984, September 12, 003.

[15] A. C. Lewin and D. A. Orchard, “Structured light projector,” Patent WO 2004044523 , May 5, 2004.

[16] A. C. Lewin, D. A. Orchard, and S. C. Woods, “Ranging apparatus,” Patent US 2006044546, March 2, 2006.

[17] A. C. Lewin, D. A. Orchard, et al., “A 3D camera for improved facial recognition,” SPIE (Proceeding on Optics and Photonics for Counterterrorism and Crimefighting), vol. 5616, pp. 77-84, 2004.

[18] G. McDonald, D. Orchard, and A. Lewin, “A novel, rugged and robust longitudinal range finding method for formation flying missions,” presented at 3rd Symposium on Formation Flying, Missions and Technologies, April 23, 2008.