1. A radio telescope measures a plane wave with a flux density of 5 Jy along the X polarisation and 2.5 Jy along the Y polarisation. The waves are determined to have a phase difference of 30°. Calculate the Stokes parameters.
1. A radio telescope measures a plane wave with a flux density of 5 Jy along the X polarisation and 2.5 Jy along the Y polarisation. The waves are determined to have a phase difference of 30°. Calculate the Stokes parameters.
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1. A radio telescope measures a plane wave with a flux density of 5 Jy along the
X polarisation and 2.5 Jy along the Y polarisation. The waves are determined
to have a phase difference of 30◦. Calculate the Stokes parameters.
![1. A radio telescope measures a plane wave with a flux density of 5 Jy along the
X polarisation and 2.5 Jy along the Y polarisation. The waves are determined
to have a phase difference of 30°. Calculate the Stokes parameters.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8065bb32-a457-4f63-a56b-ee464811c2ce%2Fe8732a5e-9c90-4ec4-b2ae-807ee202f5c8%2Ftoweo5j_processed.png&w=3840&q=75)
Transcribed Image Text:1. A radio telescope measures a plane wave with a flux density of 5 Jy along the
X polarisation and 2.5 Jy along the Y polarisation. The waves are determined
to have a phase difference of 30°. Calculate the Stokes parameters.
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