The concept you're referring to is related to the expansion of the universe, as described by the Big Bang theory and the subsequent observations of cosmic expansion. According to our current understanding, as the universe expands, the distances between galaxies and other cosmic objects increase. However, it's important to note that the expansion of the universe primarily affects the spatial dimensions, rather than time itself.
In the context of the expanding universe, the concept of "more time being created" or time "moving" is not accurate. Time, as we experience it, is a fundamental dimension that is distinct from spatial dimensions. Time is not directly affected by the expansion of the universe.
However, it is worth noting that the expansion of the universe does have implications for the measurement of time. As space expands, the light from distant objects traveling through this expanding space is subject to a phenomenon known as cosmological redshift. This redshift causes the wavelengths of light to stretch as they travel across expanding space, effectively shifting them toward longer wavelengths, which we observe as a Doppler shift toward the red end of the spectrum. This phenomenon can affect our measurements of time intervals or the perceived "rate" at which time passes when comparing distant objects to those closer to us.
In summary, while the expansion of the universe affects the spatial dimensions and can cause changes in the measurement of time intervals for distant objects, it does not directly create more time or cause time to move in any specific way. Time remains a fundamental dimension that is distinct from spatial expansion.