Ground-based long baseline interferometers have long been limited in sensitivity by the short integration periods imposed by atmospheric turbulence. The first observation fainter than this limit was performed on January 222, 2011 when the Keck Interferometer observed a K=11.5 target, about one magnitude fainter than its K=10.3 limit. This observation was made possible by the Dual Field Phase Referencing instrument of the ASTRA project: simultaneously measuring the real-time effects of the atmosphere on a nearby bright guide star, and correcting for it on the faint target, integration time longer than the turbulence time scale are made possible. As a prelude to this demonstration, we first present the implementation of Dual Field Phase Referencing on the interferometer. We then detail its on-sky performance focusing on the accuracy of the turbulence correction, and on the resulting fringe contrast stability. We conclude with a presentation of early results obtained with Laser Guide Star AO and the interferometer.
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机译:地面长期基线干扰仪的灵敏度长期以来一直受到大气湍流带来的短积分期的限制。在2011年1月222日,Keck干涉仪观测到一个K = 11.5的目标,比其K = 10.3的极限微弱了一个数量级,首次观察到了这个极限的微弱。 ASTRA项目的双场相位参考仪器使这种观测成为可能:同时测量大气对附近明亮的恒星的实时影响,并在微弱的目标上对其进行校正,积分时间长于湍流时间规模成为可能。作为此演示的序言,我们首先介绍干涉仪上双场相位参考的实现。然后,我们将着重于湍流校正的准确性以及由此产生的条纹对比度稳定性,详细介绍其在天空上的表现。最后,我们介绍了使用Laser Guide Star AO和干涉仪获得的早期结果。
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