2001
DOI: 10.1063/1.1347375
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Phase modulation at 125 kHz in a Michelson interferometer using an inexpensive piezoelectric stack driven at resonance

Abstract: Fast phase modulation has been achieved in a Michelson interferometer by attaching a lightweight reference mirror to a piezoelectric stack and driving the stack at a resonance frequency of about 125 kHz. The electrical behavior of the piezo stack and the mechanical properties of the piezo-mirror arrangement are described. A displacement amplitude at resonance of about 350 nm was achieved using a standard function generator. Phase drift in the interferometer and piezo wobble were readily circumvented. This appr… Show more

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Cited by 18 publications
(17 citation statements)
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“…The design of our new 1300 nm OCM instrument is similar to the 850 nm OCM that has been described previously in three publications [2][3][4]. Here we will summarize the most important performance specifications and improvements over the old instrument.…”
Section: Characteristics Of the New 1300nm Ocm Instrumentmentioning
confidence: 88%
“…The design of our new 1300 nm OCM instrument is similar to the 850 nm OCM that has been described previously in three publications [2][3][4]. Here we will summarize the most important performance specifications and improvements over the old instrument.…”
Section: Characteristics Of the New 1300nm Ocm Instrumentmentioning
confidence: 88%
“…One of the outputs of the mixer is proportional to sine, while the other one is proportional to the cosine of the interesting signal. Sometimes the method is also called Pseudo-Heterodyne Detection (PHD) (Jackson et al, 1982).To produce the phase shift instead of Laser frequency modulation it is possible to create phase shift with a cylindrical Piezoelectric, which is wrapped around one arm of the interferometer and is derived with a sinusoidal voltage (Hoeling et al, 2001). This case is called synthetic heterodyne method (Strauss, 1994).…”
Section: Phase Generated Carrier (Pgc) Homodyne Detectionmentioning
confidence: 99%
“…Fringes are produced by oscillating the reference mirror with a small amplitude. As we described earlier, 4 our design for such a phase modulation involves attaching the reference mirror to a piezoelectric stack driven at resonance. We were able to achieve a modulation frequency of about 125 kHz, facilitating high-speed data acquisition, and we used a displacement amplitude of only 350 nm in order to preserve good depth resolution.…”
Section: Introductionmentioning
confidence: 99%