The field high-amplitude SX Phoenicis variable BL camelopardalis: Results from a multisite photometric campaign I. Pulsation

E. Rodríguez*, S. Fauvaud, J. A. Farrell, A. Y. Zhou, J. P. Sareyan, M. J. López-González, M. A. Dupret, A. Grigahcéne, J. De Ridder, G. Klingenberg, M. Wolf, P. Van Cauteren, P. Lampens, D. Martínez, V. M. Casanova, F. J. Aceituno, M. Helvaci, E. G. Hintz, L. Král, F. FumagalliJ. H. Simonetti, B. H. Granslo, L. Kotková, G. Santacana, J. Michelet, M. Fauvaud, J. M. Vugnon, H. Sadsaoud, S. Aliouane, Z. C. Grigahcéne, S. Martín-Ruíz, P. J. Amado, J. C. Suárez, A. Moya, H. Kuc̀áková, R. Kocián, K. Truparová, A. Avdibegovic̀, M. Blažek, J. Kliner, P. Zasche, M. Vilásek, S. Bartošíková, B. Yasarsoy, C. Ulusoy, K. A. Graham, M. P. Nicholson, O. Trondal, C. Yesilyaprak, D. Coker

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

21 Citations (Scopus)

Fingerprint

Dive into the research topics of 'The field high-amplitude SX Phoenicis variable BL camelopardalis: Results from a multisite photometric campaign I. Pulsation'. Together they form a unique fingerprint.

Keyphrases

Engineering

Physics

Earth and Planetary Sciences