Even the nearest stars are so distant that a single diffraction limited telescope capable of imaging Earth-size

Question:

Even the nearest stars are so distant that a single diffraction limited telescope capable of imaging Earth-size planets orbiting them would be hopelessly large (see Problem 45). Astronomers get around this limitation using interferometry to combine data from several telescopes, producing an instrument that acts like a single telescope with aperture equal to the distance between the individual telescopes (Fig. ?32.30). The technological challenge is to combine the signals with their relative phase intact; for this reason, interferometry has been used successfully for decades in radio astronomy but only recently with optical telescopes.

Data From Problem 45

NASA asks you to assess the feasibility of a single-mirror spacebased optical telescope that could resolve an Earth-size planet 5 light-years away. What do you conclude?

?image

If the separation of two telescopes comprising an interferometer is doubled, the instrument?s light-collecting power willa. not change.b. increase by a factor of ?2.c. double.d. quadruple.

Fantastic news! We've Found the answer you've been seeking!

Step by Step Answer:

Related Book For  book-img-for-question

Essential University Physics

ISBN: 978-0321976420

3rd Edition Volume 2

Authors: Richard Wolfsonby

Question Posted: