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Antarctic astronomy publications Site/Dome C (Concordia Station)

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Where Is the Best Site on Earth? Domes A, B, C, and F, and Ridges A and B
Saunders, Will et al., 2009, Publications of the Astronomical Society of the Pacific, 121, 976
Hemisphere/Antarctic Type/Satellite observations Characteristics/Precipitable water vapour Type/Modelling Type/In-situ or ground-based observations Characteristics/Atmospheric transparency Wavelength/Terahertz Site/Dome F (Dome Fuji) Characteristics/Meteorological data Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence Wavelength/Optical Site/Dome A (Kunlun Station) Site/South Pole Characteristics/Sky brightness & stability Characteristics/Boundary layer turbulence Characteristics/Free atmosphere turbulence profiles Wavelength/Infrared Site/Ridge A

Dome C site testing: surface layer, free atmosphere seeing, and isoplanatic angle statistics
Aristidi, E. et al., 2009, Astronomy and Astrophysics, 499, 955
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence Characteristics/Boundary layer turbulence Characteristics/Free atmosphere turbulence profiles

Overcoming the Boundary Layer Turbulence at Dome C: Ground-Layer Adaptive Optics versus Tower
Travouillon, T. et al., 2009, Publications of the Astronomical Society of the Pacific, 121, 668
Hemisphere/Antarctic Type/Modelling Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence

First single star scidar measurements at Dome C, Antarctica
Vernin, J. et al., 2009, Astronomy and Astrophysics, 500, 1271
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence Characteristics/Boundary layer turbulence

First statistics of the turbulence outer scale at Dome C
Ziad, A. et al., 2008, Astronomy and Astrophysics, 491, 917
Hemisphere/Antarctic Type/In-situ or ground-based observations Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence

Adaptive Optics Sky Coverage for Dome C Telescopes
Lawrence, J. S. et al., 2008, Publications of the Astronomical Society of the Pacific, 120, 1119
Hemisphere/Antarctic Type/Instrument design Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence

Prospects of Long-Time-Series Observations from Dome C for Transit Search
Rauer, Heike, Fruth, Thomas & Erikson, Anders, 2008, Publications of the Astronomical Society of the Pacific, 120, 852
Type/Review Hemisphere/Antarctic Type/Modelling Characteristics/Atmospheric transparency Site/Dome C (Concordia Station)

Snodar: a new instrument to measure the height of the boundary layer on the Antarctic plateau
Bonner, Colin S. et al., 2008, Ground-based and Airborne Instrumentation for Astronomy II, 7014, 70146I
Hemisphere/Antarctic Type/Instrument design Site/Dome C (Concordia Station) Site/Dome A (Kunlun Station) Characteristics/Boundary layer turbulence

First photometric properties of Dome C, Antarctica
Chadid, M. et al., 2008, Ground-based and Airborne Telescopes II, 7012, 701248
Hemisphere/Antarctic Type/In-situ or ground-based observations Characteristics/Atmospheric transparency Site/Dome C (Concordia Station) Wavelength/Optical

Toward a large telescope facility for submm/FIR astronomy at Dome C
Durand, Gilles Alphonse et al., 2008, Ground-based and Airborne Telescopes II, 7012, 70122B
Type/Review Hemisphere/Antarctic Type/Instrument design Characteristics/Atmospheric transparency Wavelength/Terahertz Site/Dome C (Concordia Station) Wavelength/mm & sub-mm