Does transmitting from a few dishes significantly improve the performance of radar surveillance from Earth at GEO and beyond? If so, how exactly?

Question

The BBC's US wants giant radar in UK to track space objects says:

Lt Col Jack Walker of the US Space Force told the BBC the US was "in discussion" with the UK about putting the radars "possibly in Scotland or further south".

He said the site would house "anywhere from 10 to 15 parabolic antenna (large satellite dishes) for tracking and four to six for transmitting" and cover an area of about 1km square.

Each radar dish will be 15 metres in diameter.

Col Walker said the purpose of the system would be to "detect and track targets which could potentially be threats to our high-value assets".

and this answer to How can we install a radar on radio telescopes like FAST or GMRT? in Astronomy SE discusses a similar-sounding cluster of mixed transmitting and receiving dishes for "China's near-Earth asteroids radar system" and the phasing of the dishes as discussed in the paper it links to.

Radar surveillance is heating up!

Question: Does transmitting from a few dishes significantly improve the performance of radar surveillance from Earth at GEO and beyond? If so, how exactly?

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Related:

• What would be a "big picture" understanding of how the orbits of Earth satellites are monitored?
• Detailed radar imaging of Tiangong-1; how do they do that? ("It was done with one single dish")
• Why is this astronaut placing a radar reflector?
• How does the SpaceBEEs' experimental passive radar reflector work?

Answer 1

Multiple dishes can operate as a phased array to produce a narrower beam, but due to the thinned array curse, can not produce a brighter beam than any one of them could if it had the same total transmit power.

However, such an array can scan the beam electronically far more quickly than a dish could move, which might allow more rapid surveys of a patch of sky, or different types of observations that depend on such rapid scanning. Also, the transmit dishes may not operate as a phased array, but be used to illuminate multiple different regions. An array with 4 transmitters and at least as many receive dishes could potentially be split up to continuously track 4 different objects in completely different parts of the sky, or to continue investigating a newly discovered object while the bulk of the array continues with a survey.

In short, it's a tradeoff. Investing the same resources in a single dish might allow brighter illumination and longer radar range/sensitivity to smaller objects, at a cost in flexibility.