Interesting. I just looked up a comparison between LEDs and lasers. The optical bandwidth of an LED is about 25 to 100 nm, while that of a laser is less than 5 or 10 nm. So, LED could be used for reduced speckle. However, the electricity to light efficiency of the LED is about 10 to 20% while the laser can be up to 70%. A xenon lamp is apparently about 4 to 14% efficient. The peak output of a xenon lamp is at about 825 nm while the visible spectrum is about 380 to 700 nm. So, the xenon lamp has a lot of output, we just can't see it. It appears that LEDs would be better than xenon as far as efficiency and better than laser as far as speckle, but nothing beats the efficiency of the laser. There MIGHT also be the possibility of LEDs being available at wavelengths corresponding to the peaks of the XYZ curves, while lasers tend to be on the skirts increasing metamerism.

I guess it also plays a role how the emitted light can be used to a higher extent in the light engine. Classic 'bulbs' are very bad at this. Lasers offer smaller etendue per design and offer far more flexibility and higher 'overall' efficiency. This also impacts visual contrast improvements.
I assume LEDs are somewhere inbetween. Don't know about the conversion efficiency for phosphor lasers, but I assume, once light passes through the phosphor wheel, there goes the small etendue.