S. Dubovitsky scite author profile

The Laser Ranging Interferometer (LRI) instrument on the Gravity Recovery and Climate Experiment (GRACE) Follow-On mission has provided the first laser interferometeric range measurements between remote spacecraft, separated by approximately 220 km. Autonomous controls that lock the laser frequency to a cavity reference and establish the 5 degree of freedom two-way laser link between remote spacecraft succeeded on the first attempt. Active beam pointing based on differential wavefront sensing compensates spacecraft attitude fluctuations. The LRI has operated continuously without breaks in phase tracking for more than 50 days, and has shown biased range measurements similar to the primary ranging instrument based on microwaves, but with much less noise at a level of 1 nm/ √ Hz at Fourier frequencies above 100 mHz.

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MSTAR: a submicrometer absolute metrology system

Lay

Dubovitsky

Peters

et al. 2003

Opt. Lett.

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The Modulation Sideband Technology for Absolute Ranging (MSTAR) sensor permits absolute distance measurement with subnanometer accuracy, an improvement of 4 orders of magnitude over current techniques. The system uses fast phase modulators to resolve the integer cycle ambiguity of standard interferometers. The concept is described and demonstrated over target distances up to 1 m. The design can be extended to kilometer-scale separations.

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Analysis and improvement of Mach-Zehnder modulator linearity performance for chirped and tunable optical carriers

Dubovitsky

Steier

Yegnanarayanan

et al. 2002

J. Lightwave Technol.

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A laser Doppler instrument for in vivo measurements of blood flow in single renal arterioles

Smedley

Yip

Wagner

et al. 1993

IEEE Trans. Biomed. Eng.

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A laser Doppler instrument has been developed to measure the blood flow in single vessels for the study of the dynamics of local control mechanisms. A commercial blood perfusion monitor, designed to measure blood perfusion in a vascular field containing many randomly oriented blood vessels, was modified to perform measurements of blood flow in a single arteriole. In vitro tests of the instrument revealed that the relationship between blood flow and Doppler shift was not a simple linear function. Causes of nonlinearity are revealed and proper use of the device avoids the problem. The device was applied to efferent arterioles that are visible on the surface of the rat kidney. An angiotensin converting enzyme inhibitor and graded doses of angiotensin II were used to perturb kidney blood flow. The induced changes in whole kidney blood flow, measured with an electromagnetic flow probe, and in single efferent arteriolar blood flow, measured with the new instrument, were correlated. An oscillation at approximately 0.035 Hz, previously described in the tubular pressure and attributed to a local feedback mechanism acting on arteriolar resistance, was found in the arteriolar blood flow. The new instrument is easy to use and provides temporal resolution not available with more conventional methods used for flow measurement in the microcirculation.

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Flight phasemeter on the Laser Ranging Interferometer on the GRACE Follow-On mission

Bachman

Vine

Dickson

et al. 2017

J. Phys.: Conf. Ser.

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S. Dubovitsky

In-Orbit Performance of the GRACE Follow-on Laser Ranging Interferometer

MSTAR: a submicrometer absolute metrology system

Analysis and improvement of Mach-Zehnder modulator linearity performance for chirped and tunable optical carriers

A laser Doppler instrument for in vivo measurements of blood flow in single renal arterioles

Flight phasemeter on the Laser Ranging Interferometer on the GRACE Follow-On mission

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