You can hit those speeds and beyond with a rocket engine. They don't really have a speed limit, they'll keep accelerating something (provided their force is greater than the drag and any other retarding forces) until you turn them off. Eg, a payload into earth orbit, which would be about Mach 25 if there was some atmosphere. Or significantly faster if you're putting a probe on an escape velocity, for example the Pluto probe New Horizons, which was launched with a solar escape velocity that would be equivalent to about Mach 50 (all sea level).
The advantage of the scramjet over a rocket is that you don't have to carry the oxidiser in a tank with you (like a conventional rocket). You get it from the atmosphere. But being inside an atmosphere making thermal management a big challenge, as the article describes.
The advantage of the scramjet over a rocket is that you don't have to carry the oxidiser in a tank with you (like a conventional rocket). You get it from the atmosphere. But being inside an atmosphere making thermal management a big challenge, as the article describes.