论文信息 - Systematic errors in nulling interferometers.

Systematic errors in nulling interferometers.

Nulling interferometers combine on-axis suppression with high angular resolution, making them ideal instruments for the direct detection of faint planets close to their parent star. Analysis is developed to show that it is systematic errors, resulting from fluctuations in the null depth, that drive the instrument performance. A second-order combination of amplitude and phase errors is the dominant contributor. In the calculated example, the detection of an Earthlike planet around a Sunlike star at 15 pc requires that the arms of the interferometer must be phased to within approximately 1.5 nm and have their amplitudes matched to approximately 0.1%.

O. Lay | Oliver P Lay

[1] J. Angel,et al. An Imaging Nulling Interferometer to Study Extrasolar Planets , 1997 .

[2] E. L. Wright,et al. The COBE Diffuse Infrared Background Experiment Search for the Cosmic Infrared Background. II. Model of the Interplanetary Dust Cloud , 1997, astro-ph/9806250.

[3] B. Mennesson,et al. Use of single-mode waveguides to correct the optical defects of a nulling interferometer. , 2002, Journal of the Optical Society of America. A, Optics, image science, and vision.

[4] Neville J. Woolf,et al. ASTRONOMICAL SEARCHES FOR EARTH-LIKE PLANETS AND SIGNS OF LIFE , 1998 .

[5] R. Bracewell. Detecting nonsolar planets by spinning infrared interferometer , 1978, Nature.

[6] B. Mennesson,et al. Array Configurations for a Space Infrared Nulling Interferometer Dedicated to the Search for Earthlike Extrasolar Planets , 1997 .

[7] R. Paul Butler,et al. DETECTION OF EXTRASOLAR GIANT PLANETS , 1998 .