Optical Turbulence Measurements and Models for Mount John University Observatory

Abstract

Site measurements were collected at Mount John University Observatory in 2005 and 2007 using a purpose-built scintillation detection and ranging system. Cn2(h) profiling indicates a weak layer located at 12 - 14 km above sea level and strong low altitude turbulence extending up to 5 km. During calm weather conditions, an additional layer was detected at 6 - 8 km above sea level. V(h) profiling suggests that tropopause layer velocities are nominally 12 - 30 m/s, and near-ground velocities range between 2 -- 20 m/s, dependent on weather. Little seasonal variation was detected in either Cn2(h) and V(h) profiles. The average coherence length, r0, was found to be 7 1 cm for the full profile at a wavelength of 589 nm. The average isoplanatic angle, θ0, was 1.0 0.1 arcsec. The mean turbulence altitude, h0, was found to be 2.00.7 km above sea level. No average in the Greenwood frequency, fG, could be established due to the gaps present in the profiles obtained. A modified Hufnagel-Valley model was developed to describe the Cn2(h) profiles at Mount John, which estimates r0 at 6 cm and θ0 at 0.9 arcsec. A series of V(h) models were developed, based on the Greenwood wind model with an additional peak located at low altitudes. Using the Cn2(h) model and the suggested V(h) model for moderate ground wind speeds, fG is estimated at 79 Hz.