Your search keyword '"Consuelo Cid"' showing total 3 results

1. Decrease in SYM-H during a storm main phase without evidence of a ring current injection

Author

Pontus Brandt, Ian G. Richardson, Ezequiel Echer, Geoffrey D. Reeves, Vytenis M. Vasyliūnas, Consuelo Cid, Walter D. Gonzalez, and Ramon Lopez

Subjects

Physics, Geomagnetic storm, Atmospheric Science, Energetic neutral atom, Magnetosphere, Flux, Astrophysics, Atmospheric sciences, Geophysics, Space and Planetary Science, Phase (matter), Substorm, Current (fluid), Ring current

Abstract

Changes in the Dst index, or the similarly constructed high-resolution SYM-H index, are thought to indicate changes in the total energy content of the ring current. However, this is not always the case. In this paper we examine an intense (SYM-H ∼ −435 nT) magnetic storm that occurred on March 31, 2001. The arrival at Earth of strongly southward IMF produced an immediate negative response in the SYM-H index. While energetic particle and magnetometer data from geosynchronous orbit and inner magnetosphere energetic neutral atom imaging indicate that two substorm injections took place during the main phase, there was about one hour when the SYM-H decreased more than 200 nT with no evidence in the data for ring current enhancement. Instead the near-Earth magnetotail exhibited a growth phase indicative of a strong, growing cross-tail current, with the large substorm expansion phase and the associated injection of energetic particles coming significantly later. Data from the DMSP spacecraft demonstrate that the polar cap flux grew rapidly in response to the strongly southward IMF. We present observations showing that the decrease in SYM-H occurred when polar cap flux was increasing and there was no evidence of injection into the ring current. Our findings strongly support the relationship between Dst and the polar cap flux proposed by theoretical studies that determined that the tail current system could be a significant contributor to Dst.

Published

2015

2. Solar and interplanetary triggers of the largest Dst variations of the solar cycle 23

Author

Elena Saiz, J. Palacios, Yolanda Cerrato, Consuelo Cid, and Walter D. Gonzalez

Subjects

Geomagnetic storm, Physics, Atmospheric Science, Ionospheric dynamo region, Interplanetary medium, Astronomy, Solar physics, Solar wind, Geophysics, Earth's magnetic field, Space and Planetary Science, Physics::Space Physics, Coronal mass ejection, Astrophysics::Solar and Stellar Astrophysics, Interplanetary spaceflight

Abstract

We present the results of an investigation from the Sun to the Earth of the sequence of events that caused major Dst decreases (Δ Dst ≤ – 100 nT during 1 h) that occurred during 1996–2005. These events are expected to be better related to geomagnetic induced current (GIC) events than those events where any geomagnetic index is far from its quiet time value. At least one full halo CME with a speed on the plane of sky above 900 km/s participates in every studied event. The seven events were triggered by interplanetary signatures, which arise as a consequence of interaction among different solar ejections. The interaction arises at different stages from the solar surface, between segments of a filament, to the interplanetary medium, appearing as ejecta or multiple-magnetic clouds (MultiMCs). In other cases, shock waves overtake or compress previous ICMEs and at other times the interaction also appears between magnetic clouds (MCs) and streams.

Published

2012

3. The relationship between the recovery phase of geomagnetic storms and the magnetic clouds

Author

Miguel Angel Hidalgo, Inma Rodríguez Cantalapiedra, Consuelo Cid, J. Sequeiros, and Teresa Nieves-Chinchilla

Subjects

Physics, Geomagnetic storm, Atmospheric Science, Ionospheric dynamo region, Geomagnetic secular variation, Aerospace Engineering, Interplanetary medium, Astronomy and Astrophysics, Geophysics, Atmospheric sciences, Physics::Geophysics, Earth's magnetic field, Space and Planetary Science, Physics::Space Physics, General Earth and Planetary Sciences, Axial symmetry, Physics::Atmospheric and Oceanic Physics, Ring current, Recovery phase

Abstract

Starting with our elliptical cross-section model for the study of the magnetic topology of magnetic clouds (MCs) in the interplanetary medium, we develop an analytical approach to the behavior of the Dst index at the recovery phase of a geomagnetic storm. Assuming an axially symmetric ring current, we estimate its physical parameters during that recovery phase of the storm-time. We compare the theoretical and measured Dst indexes in two intense geomagnetic storms (Dst

Published

2005