@InCollection{PalaciosDomBalCabDom:2016:MuObPh,
author = "Palacios, Judith and Domingues, S. Vargas and Balmaceda, Laura
Antonia and Cabello, I. and Domingo, V.",
title = "Multi-wavelength observations of photospheric vortex flows in the
photosphere using ground-based and space-borne telescopes",
booktitle = "Ground-based solar observations in the space instrumentation era",
publisher = "Astronomical Society of the Pacific",
year = "2016",
editor = "Dorotovic, I. and Fischer, C. and Temmer, M.",
pages = "139--142",
note = "Conference: Coimbra Solar Physics Meeting on Ground-based Solar
Observations in the Space Instrumentation Era, University of
Coimbra, oct. 2015.",
keywords = "Magnetic elements, quiet-sun, motion, internetwork.",
abstract = "In this work we follow a series of papers on high-resolution
observations of small-scale structures in the solar atmosphere
(Balmaceda et al. 2009, 2010; Vargas Dominguez et al. 2011;
Palacios et al. 2012; Domingo et al. 2012; Vargas Dominguez et al.
2015, Cabello et al., in prep), combining several multi-wavelength
data series. These were acquired by both ground-based (SST) and
space-borne (Hinode) instruments during the joint campaign of the
Hinode Operation Program 14, in September 2007.
Diffraction-limited SST data were taken in the G-band and G-cont,
and were restored by the MFBD technique. Hinode instruments, on
the other hand, provided multispectral data from SOT-FG in the CN
band, and Mg I and Ca II lines, as well as from SOT-SP in the Fe I
line. In this series of works we have thoroughly studied vortex
flows and their statistical occurrences, horizontal velocity
fields by means of Local Correlation Tracking (LCT), divergence
and vorticity. Taking advantage of the high-cadence and high
spatial resolution data, we have also studied bright point
statistics and magnetic field intensification, highlighting the
importance of the smallest-scale magnetic element observations.",
affiliation = "{Universidad Alcala de Henares} and {Universidad Nacional de
Colombia} and {Instituto Nacional de Pesquisas Espaciais (INPE)}
and {Universidad Tecnologica Nacional UTN FRM} and {Universidad
Valencia}",
isbn = "978-1-58381-892-3",
language = "en",
targetfile = "palacios_multiu.pdf",
volume = "504",
urlaccessdate = "27 abr. 2024"
}