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The Science Case for PILOT I: Summary and Overview
Lawrence, J. S. et al., 2009, Publications of the Astronomical Society of Australia, 26, 379
Hemisphere/Antarctic Type/Instrument design Site/Dome C (Concordia Station) Wavelength/Optical Wavelength/Infrared
The Science Case for PILOT II: the Distant Universe
Lawrence, J. S. et al., 2009, Publications of the Astronomical Society of Australia, 26, 397
Hemisphere/Antarctic Type/Instrument design Site/Dome C (Concordia Station) Wavelength/Optical Wavelength/Infrared
The Science Case for PILOT III: the Nearby Universe
Lawrence, J. S. et al., 2009, Publications of the Astronomical Society of Australia, 26, 415
Hemisphere/Antarctic Type/Instrument design Site/Dome C (Concordia Station) Wavelength/Optical Wavelength/Infrared
Snodar II:. Probing the Atmospheric Boundary Layer on the Antarctic Plateau
Bonner, C. S. et al., 2009, Optical Turbulance: Astronomy Meets Meteorology, 264
Hemisphere/Antarctic Type/Instrument design Site/Dome A (Kunlun Station) Characteristics/Boundary layer turbulence
Comparison of the Atmosphere above the South Pole, Dome C and Dome A:. First Attempt
Hagelin, S. et al., 2009, Optical Turbulance: Astronomy Meets Meteorology, 240
Hemisphere/Antarctic Type/In-situ or ground-based observations Characteristics/Meteorological data Site/Dome C (Concordia Station) Site/Dome A (Kunlun Station) Site/South Pole
Mesoscale optical turbulence simulations at Dome C
Lascaux, F. et al., 2009, Monthly Notices of the Royal Astronomical Society, 398, 1093
Hemisphere/Antarctic Type/Modelling Site/Dome C (Concordia Station) Characteristics/Seeing & integrated turbulence Characteristics/Boundary layer turbulence
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
How we can Understand the Antarctic Atmosphere?
Storey, J. W. V., Ashley, M. C. B. & Lawrence, J. S., 2009, Optical Turbulance: Astronomy Meets Meteorology, 82
Type/Review Hemisphere/Antarctic Characteristics/Atmospheric transparency Characteristics/Seeing & integrated turbulence Wavelength/Infrared
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
The PLATO Dome A site-testing observatory: Power generation and control systems
Lawrence, J. S. et al., 2009, Review of Scientific Instruments, 80, 064501
Hemisphere/Antarctic Type/Instrument design Site/Dome A (Kunlun Station)