G. F. Jacobson scite author profile

In this paper we describe a velocity interferometer system (a VISAR) based entirely on single-mode fiber optics. This paper includes a description of principles used in developing the single-mode velocity interferometry system (SMV). The SMV design is based on polarizationinsensitive components. Polarization adjusters are included to eliminate the effects of residual birefringence and polarization dependent losses in the interferometers. Characterization measurements and calibration methods needed for data analysis and a method of data analysis are described. Calibration is performed directly using tunable lasers.During development, we demonstrated its operation using exploding-foil bridge-wire fliers up to 200 m/s. In a final test, we demonstrated the SMV in a gas gun experiment up to 1.2 km/sec. As a basis for comparison in the gas gun experiment, we used another velocimetry technique that is also based on single mode fiber optics: photonic Doppler velocimetry (PDV).For the gas gun experiment, we split the light returned from a single target spot, and performed a direct comparison of the homodyne (SMV) and heterodyne (PDV) techniques concurrently. The two techniques had a negligible mean difference and a 1.5 % standard deviation in the 1 dimensional shock zone.Within one interferometer delay time after a sudden Doppler shift, an SMV unencumbered by multimode-fiber dispersion exhibits two color beats. These beats have the same period as PDV beats --this interference occurs between the "recently" shifted and "formerly un-shifted" paths within the interferometer. We believe that recognizing this identity between homodyne and heterodyne beats is novel in the shock-physics field. SMV includes the conveniences of optical fiber, while removing the time resolution limitations associated with multimode delivery fiber.2

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High density photovoltaic

Haigh¹,

Jacobson²,

Wojtczuk

1997

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G. F. Jacobson

Error-rate floor in optical ASK heterodyne systems caused by nonzero (semiconductor) laser linewidth

Single-mode fiber, velocity interferometry

High density photovoltaic

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