Borrero, J. M.; Martinez-Pillet, V.; Schlichenmaier, R.; Solanki, S. K.; Bonet, J. A.; del Toro Iniesta, J. C.; Schmidt, W.; Barthol, P.; Gandorfer, A.; Domingo, V.et al.; Knoelker, M.: Supersonic Magnetic Upflows in Granular Cells Observed with SUNRISE/IMaX. Astrophysical Journal 723 (2), pp. L144 - L148 (2010)
Borrero, J. M.; Rempel, M.; Solanki, S. K.: Spectropolarimetric analysis of 3D MHD sunspot simulations. Astron. Nachrichten 331 (6), pp. 567 - 569 (2010)
Borrero, J. M.: The structure of sunspot penumbrae - IV. MHS equilibrium for penumbral flux tubes and the origin of dark core penumbral filaments and penumbral grains. Astronomy and Astrophysics 471, pp. 967 - 975 (2007)
Borrero, J. M.; Solanki, S. K.; Lagg, A.; Socas-Navarro, H.; Lites, B.: On the fine structure of sunspot penumbrae: III. The vertical extension of penumbral filaments. Astronomy and Astrophysics 450, pp. 383 - 393 (2006)
Borrero, J. M.; Bellot Rubio, L. R.; Barklem, P. S.; Del Toro Iniesta, J. C.: Accurate atomic parameters for near-infrared spectral lines. Astronomy and Astrophysics 404, p. 749 (2003)
Bellot Rubio, L. R.; Borrero, J. M.: Iron abundance in the solar photosphere. Application of a two-component model atmosphere. Astronomy and Astrophysics 391 (3), pp. 331 - 337 (2002)
Borrero, J. M.; Rubio, L. R. B.: A two-component model of the solar photosphere from the inversion of spectral lines. Astronomy and Astrophysics 385 (3), pp. 1056 - 1072 (2002)
Borrero, J. M.; Lagg, A.; Solanki, S. K.; Frutiger, C.; Collados, M.; Bellot Rubio, L. R.: Modeling the Fine Structure of a Sunspot Penumbra through the Inversion of Stokes Profiles. Astronomical Society of the Pacific, pp. 235 - 242 (2003)
Borrero, J. M.; Lagg, A.; Solanki, S. K.; Frutiger, C.; Collados, M.; Bellot Rubio, L. R.: Modeling the Fine Structure of a Sunspot Penumbra through the Inversion of Stokes Profiles. In: Current Theoretical Models and Future High Resolution Solar Observations: Preparing for ATST, p. 235 (Eds. Pevtsov, A. A.; Uitenbroek, H.). (2003)
Application deadline 1 October 2024. PhD projects in planetary science, solar and stellar physics, solar magnetism, heliophysics, helioseismology, asteroseismology, ...
In analyzing solar observations from the 19th century, scientists are turning to amateur researchers for help. The project will allow to better understand the history of our star.
Astronomical teamwork: By combining data from Solar Orbiter and SDO, a group of researchers has unambiguously determined the magnetic field at the solar surface.
Application deadline 1 October 2023. PhD projects in planetary science, solar and stellar physics, solar magnetism, heliophysics, helioseismology, asteroseismology, ...
Philipp Löschl has co-authored an excellent publication on Solar Orbiter data which has been awarded best Solar Physics paper of 2022 (Gherardo Valori et al. 2022)