Alright, this is probably the last time I'm going to attempt to increase the satellite's size. Though I have contemplated just using Vespers 15km radius design, I'd prefer and try to make my own measurements.
To do this, I increased the satellite's collector radius to 20km to make a surface area of 1,256 squared Kilometers. With the same 0.3 AU distance from the sun, I decided to use the new equations Vesper so graciously gave me.
Code:
P(C) = 0.25 * 4E26 Watts * 20KM^2 * 4.49E7 KM^-2 * 0.8
P(C) = 1.59E13 Watts
M(A) = 1.59E13 * 2.998E8 c^-2
M(A) = 1.777854E-4 Kg*s
This pretty much means it would be 177.9 mg/sec or 640.44 grams/hour. It was more of an experiment than anything else, but it is a decent amount of production.
Now, I need to make a decision. I could go with my 20km radius design and build clusters of 5 per solar system. This means a production of 76,852.8 grams of antimatter per day in a single solar system.
Or I can go with a smaller 1KM radius design I thought up of earlier with a production of 2.652 grams/hour. Making cluster of 20 satellites in a single system, I could get a production of 1,272.96 grams of antimatter per day.
True, when it comes to production amount, I get much more with the larger satellite than the smaller one. But the 1KM radius design would be cheaper to build over all.
Another choice would be to make two separate designs and make the smaller of the two for civilian corporation use while the larger design could be sold to other nations or kept in the Abwehran Star Empire.