Eric Husmann scite author profile

Eric Husmann

3Publications

59Citation Statements Received

63Citation Statements Given

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Affiliations

Washington University in St. Louis, Scripps Institution of Oceanography, University of California, San Diego

Publications

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Measurement of vertical strain and velocity at Siple Dome, Antarctica, with optical sensors

Zumberge¹,

Elsberg

Harrison

et al. 2002

J. Glaciol.

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As part of a larger program to measure and model vertical strain around Siple Dome on the West Antarctic ice sheet, we developed a new sensor to accurately and stably record displacements.The sensors consist of optical fibers, encased in thin-wall stainless-steel tubes, frozen into holes drilled with hot water, and stretched from the surface to various depths (up to 985 m) in the ice sheet. An optical system, connected annually to the fibers, reads out their absolute lengths with a precision of about 2 mm. Two sets of five sensors were installed in the 1997/98 field season: one set is near the Siple Dome core hole (an ice divide), and a second set is on the flank 7 km to the north (the ice thickness at both sites is approximately 1000 m). The optical-fiber length observations taken in four field seasons spanning a 3 year interval reveal vertical strain rates ranging from^229 AE 4 ppm a^1 tô 7 AE 9 ppm a^1. In addition to confirming a non-linear constitutive relationship for deep ice, our analysis of the strain rates indicates the ice sheet is thinning at the flank and is in steady state at the divide.

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Depth- and time-dependent vertical strain rates at Siple Dome, Antarctica

Elsberg¹,

Harrison²,

Zumberge

et al. 2004

J. Glaciol.

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As part of a project to investigate the flow of ice at low effective stress, two independent strain-gauge systems were used to measure vertical strain rate as a function of depth and time at Siple Dome, Antarctica. The measurements were made from January 1998 until January 2002 at the ice divide and a site 7km to the northeast on the flank. The strain-rate profiles place constraints on the rheology of ice at low stress, show the expected differences between divide and flank flow (with some structure due to firn compaction and probably ice stratigraphy), and suggest that the flow of the ice sheet has not changed much in the last 8.6 kyr. The strain rates show an unexpected time dependence on scales ranging from several months to hours, including discrete summer events at the divide. Time dependence in strain rate, water pressure, seismicity, velocity and possibly basal motion has been seen previously on the Siple Coast ice streams, but it is especially surprising on Siple Dome because the bed is cold.

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An optical fiber infrasound sensor: A new lower limit on atmospheric pressure noise between 1 and 10 Hz

Zumberge

Berger

Hedlin

et al. 2003

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A new distributed sensor for detecting pressure variations caused by distant sources has been developed. The instrument reduces noise due to air turbulence in the infrasound band by averaging pressure along a line by means of monitoring strain in a long tubular diaphragm with an optical fiber interferometer. Above 1 Hz, the optical fiber infrasound sensor (OFIS) is less noisy than sensors relying on mechanical filters. Records collected from an 89-m-long OFS indicate a new low noise limit in the band from 1 to 10 Hz. Because the OFIS integrates pressure variations at light-speed rather than the speed of sound, phase delays of the acoustical signals caused by the sensor are negligible. Very long fiber-optic sensors are feasible and hold the promise of better wind-noise reduction than can be achieved with acoustical-mechanical systems.

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Eric Husmann

Measurement of vertical strain and velocity at Siple Dome, Antarctica, with optical sensors

Depth- and time-dependent vertical strain rates at Siple Dome, Antarctica

An optical fiber infrasound sensor: A new lower limit on atmospheric pressure noise between 1 and 10 Hz

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