Your search keyword '"Elosegui, Pedro"' showing total 5 results

1. Network structure and fragmentation of the Argentinean interbank markets

Author

Elosegui, Pedro, Forte, Federico D., and Montes-Rojas, Gabriel

Published

2022

2. Regional and state heterogeneity of monetary shocks in Argentina

Author

Blanco, Emilio, Elosegui, Pedro, Izaguirre, Alejandro, and Montes-Rojas, Gabriel

Published

2019

3. A diffusion index analysis of the Argentinean business economic cycle based on the “Survey of Business Economic Perspectives”

Author

Elosegui, Pedro, González, Mirta, Pérez, María Cecilia, and Sangiácomo, Máximo

Published

2024

4. Small-scale deformation of an Arctic sea ice floe detected by GPS and satellite imagery.

Author

Hwang, Byongjun, Elosegui, Pedro, and Wilkinson, Jeremy

Subjects

*SEA ice, *NATURAL satellites, *GLOBAL Positioning System, *COMPRESSIVE strength

Abstract

Small-scale (~100–200 m) deformations of an Arctic sea ice floe were detected from multiple GPS-equipped buoys that were deployed on the same ice floe. Over a nine-month period three deformation events were recorded. At each case the event was of limited duration, each lasting less than a day. The events were highly compressive in nature with the area occupied by the buoy array decreasing by over half of the original area. The strain rate during the deformation, of the order of 10 −5 s −1 , is about three orders of magnitude larger than previous estimates for brittle fracturing for cracks of about 100 m in length. On the 2 day time scale, the strain rate became too small and none of the deformation events could be detected. This suggests that satellite data with longer time scales may significantly underestimate the amount of intermittent, small-scale brittle failure of total deformation. Taken as a whole, our results show the influence that large-scale wind stress can have on small-scale deformation. However, it is important to note that the impact of large-scale wind stress is also dependent on the properties of sea ice as well as on the spatial and temporal evolution of the underlying forces that influence the fracturing process. [ABSTRACT FROM AUTHOR]

Published

2015

5. Rapid ionospheric variations at high latitudes: Focusing on Greenland.

Author

Sohn, Dong-Hyo, Park, Kwan-Dong, Davis, James L., Nettles, Meredith, and Elosegui, Pedro

Subjects

*IONOSPHERE, *GLOBAL Positioning System, *GEOMAGNETISM, *LATITUDE, *ELECTRONIC data processing

Abstract

The Helheim glacier, located in southeast Greenland, has more than ten campaign-type Global Positioning System (GPS) sites; data processing led to the observation of a very rapid change in the ionospheric delay. To identify the cause of these sporadic disturbances, we analyzed the slant total electron content (STEC), single-differenced STEC (SD-STEC) and scintillation proxy index called the delta phase rate (DPR). From this analysis, the abrupt change of those ionospheric indicators was attributed to the line-of-sight direction to the satellite and the temporal sequence of the event was found to be highly correlated with the geometry of the GPS sites. In addition, the disturbance based on the result of SD-STEC occurred mostly during the night, from 17 UTC through 7 UTC, and across a band spanning the east-west direction. Based on the DPR indices obtained from GPS stations distributed across all of Greenland, Iceland, and northeastern Canada, the rapid ionospheric variation was found to be correlated with the time of the day and the geomagnetic latitude of the station. The disturbance was larger at the relatively low geomagnetic latitudes at night but was more significant at higher latitudes in the daytime. These rapid ionospheric variations tended to appear in band shapes parallel to the geomagnetic field. These results allow us to attribute such disturbance observed at the Helheim glacier to aurora-related phenomena. [ABSTRACT FROM AUTHOR]

Published

2020