Entangled LEDs

The frequency,

$f=280.73\,Hz$

 from the post "What If The Particles Are Photons?" dated 12 Dec 2017, considers a flat surface volume of,

$vol_{time}=T^3$

The frequency,

$f=67.02\,Hz$

from the post "I Don't Know..." dated 12 Dec 2017, considers a spherical surface volume of,

$Vol_{time}=\cfrac{4}{3}\pi T^3$

Both scenarios is along one space dimension.

The frequency,

$f=280.73\,Hz$

from the post "Freaking Out Entanglement" dated 14 Dec 2017, also considers a spherical surface volume of,

$Vol_{time}=\cfrac{4}{3}\pi T^3$

but is with all three space dimensions.

Does the LEDs acquire other colors, not designed for?

If $f=280.73\,Hz$ is true, then

Why is volume in space spherical, but volume in time is cubic?  Because the quantum in the time dimension is quantized in all three time dimensions in multiples of $mc^2$?  Maybe.