Airpower has no VHF-band radars, at best UHF-band AEW. So how do you want to detect a GCI directed F-313 at ranges that would occur? LO/VLO is a main design aspect of the F-313 and a main enabler.
The thing is, you are making your model extremely optimistic.
An aircraft that needs 2 engines (I'll get to those later), a LOT of avionics and electronics (since you want to make it highly automated), sensor fusion with robust enough communication equipment that it won't be jammed otherwise the aircraft will be basically blind (unless you want that AESA), a ton of fuel, and needs to be big enough to carry 2
huge AIM-54 class missiles
internally, have a long range, be able to land on small runways and even roads.
And it needs to be
VLO?
All of this. For $8 million.
I'm sorry bro, but it is just not happening. At all.
Look how big an AIM-54 is. It is a 4 metre long monster. The F-14 was designed to carry this missile externally. And we know how big the F-14 is.
You also compare the climb rate of your F-313 with a Prowler, which has 2 J52 engines producing 10,400 lb thrust each. But you also say your F-313 would be powered by 2 Al-222 class engines, bearing in mind the Al-222 produces about 5,500 lb thrust dry (and you said your F-313 is non-afterburning).
This is what I think your concept would look like if put into an F-313 shaped airframe.
A bad sketch, I know, but whatever. I based it on the actual F-313, and the size of the F-35 relative to the full aircraft.
What I'm trying to say is that this "cheap", "small", "light" aircraft would actually be around the same size as an F-35. Unless the body is made of plywood it cannot fly with just those 2 low powered engines.
We could save ourselves a lot of risk and add a lot of capability if we went for a proper air force.
Airpower has no VHF-band radars, at best UHF-band AEW. So how do you want to detect a GCI directed F-313 at ranges that would occur? LO/VLO is a main design aspect of the F-313 and a main enabler.
Airpower doesn't need VHF when you are making an $8 million LO aircraft. Even if your $8 million aircraft is designed just to fly and do nothing else (assuming it is the same size as the aircraft you describe), it would not be enough money to incorporate sufficient LO features. It would, at best, be as LO as an F/A-18E/F, which is very, very detectable with modern AESA radars. Probably a bigger RCS though, with those top mounted intakes.
But an actual combat aircraft?
That just doesn't add up. Nothing in this hypothetical aircraft add up.
That little thrust, the massive amount of fuel that you say (where will it all fit I wonder), a climb to not quite 40k feet AGL with all that fuel and weapons on board.
I'm not sure it would even fly with 2 Al-222s, and if it did, it would take quite a bit longer than 3 minutes to get up to launch altitude.
It would reach 12km in less then 3 minutes at 65m/s rate of climb (Prowler).
About 40k feet AGL for the pop-up. The speed of the opponent would be of low relevance because the F-313 would work as a ambush tool guided by the IADS --> Pop-up at the right/safe position determined by the IADS --> acquire the already via IADS detected target --> shot its two 100km class AAMs --> dive down to low level --> make a quick re-acquisition for mid course update when necessary or just via IADS data and omni-directional data link.
The concept is to be at safe distance from the high speed enemy and quick enough gone to evade a possible counter attack.
The Prowler has twice the thrust that this does. And that cannot even reach 40k feet AGL. It's like trying to take a Paykan up Damavand at 70 km/h... just not going to happen.
Who says this? Because US stealth fighters are not designed for it? The whole layout of the F-313 is for massive fuel reserves and a weaponbay-fightersize ratio bigger than any other fighter out there.
I recommend you to open your mind. Asymmetric approach doesn't stick to rules like F-313<F-35=F-313_wbay<F-35_wbay. Its all requirements and design.
Scale says this. You want to make a small aircraft that fits these gigantic missiles
internally. It doesn't work geometrically. The F-14 was only able to carry 2 behind each other under its belly because the F-14 was
equally gigantic and therefore had the engines mounted on the side of the fuselage, not inside it as in small stealth aircraft like the F-35, J-31 and F-313.
By limiting a 16 metre long aircraft to such a strange operating regime all you are doing is building a house and only living in one of the rooms.
By the way, exactly how light on logistics are 600 aircraft and their assorted crew, weapons and fuel, all being landed on dozens of small airfields and roads? Road landings are designed to be a last resort, in order to be able to land aircraft in case there is no other location available within its range. Roads are roads, not airbases.
