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Antarctic astronomy publications Site/Dome C (Concordia Station)
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Dome C ultracarbonaceous Antarctic micrometeorites. Infrared and Raman fingerprints
Dartois, E. et al., 2018, Astronomy and Astrophysics, 609, A65
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Characteristics/Other
The δ Scuti pulsations of β Pictoris as observed by ASTEP from Antarctica
Mékarnia, D. et al., 2017, Astronomy and Astrophysics, 608, L6
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Wavelength/Optical
Anisoplanatic error evaluation and wide-field adaptive optics performance at Dome C, Antarctica
Carbillet, M. et al., 2017, Monthly Notices of the Royal Astronomical Society, 471, 3043
Hemisphere/Antarctic Type/Modelling Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence Wavelength/Optical Characteristics/Free atmosphere turbulence profiles
Transiting planet candidates with ASTEP 400 at Dome C, Antarctica
Mékarnia, D. et al., 2016, Monthly Notices of the Royal Astronomical Society, 463, 45
Hemisphere/Antarctic Type/Instrument design Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Wavelength/Optical
Six winters of photometry from Dome C, Antarctica: challenges, improvements, and results from the ASTEP experiment
Crouzet, N. et al., 2016, Ground-based and Airborne Instrumentation for Astronomy VI, 9908, 99080U
Hemisphere/Antarctic Type/Instrument design Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Wavelength/Optical
Operational challenges for astronomical instrumentation in Antarctica: results from five years of environmental monitoring of AMICA at Dome C
Dolci, Mauro et al., 2016, Ground-based and Airborne Instrumentation for Astronomy VI, 9908, 99089D
Hemisphere/Antarctic Type/Instrument design Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Wavelength/Infrared
Monitoring the optical turbulence in the surface layer at Dome C, Antarctica, with sonic anemometers
Aristidi, E. et al., 2015, Monthly Notices of the Royal Astronomical Society, 454, 4304
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Wavelength/Optical Wavelength/Other Characteristics/Boundary layer turbulence
Mini Neutron Monitors at Concordia Research Station, Central Antarctica
Poluianov, Stepan et al., 2015, Journal of Astronomy and Space Sciences, 32, 281
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Characteristics/Other Wavelength/Particle
Thermalizing a telescope in Antarctica - analysis of ASTEP observations
Guillot, T. et al., 2015, Astronomische Nachrichten, 336, 638
Hemisphere/Antarctic Type/Instrument design Site/Dome C (Concordia Station) Wavelength/Optical
Observations of optically active turbulence in the planetary boundary layer by sodar at the Concordia astronomical observatory, Dome C, Antarctica
Petenko, I. et al., 2014, Astronomy and Astrophysics, 568, A44
Hemisphere/Antarctic Type/In-situ or ground-based observations Characteristics/Meteorological data Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence Wavelength/Optical Wavelength/Other Characteristics/Boundary layer turbulence