Improved
Hubble yardstick gives fresh evidence for new physics in the universe
"The team's ( prof Riess) new study
extends the number of stars analyzed to distances up to 10 times farther into
space than previous Hubble results
This means that the
acceleration itself might not have a constant value in the universe but changes
over time in the universe.
Riess shared a Nobel Prize for the 1998
discovery of the accelerating universe
Yet another
attractive possibility ( according to Quantum FFF Theory) is that dark matter (an invisible form of matter not
made up of protons, neutrons, and electrons) interacts more strongly with
normal matter or radiation than previously assumed."
Geplakt uit <https://www.sciencedaily.com/releases/2018/02/180222162005.htm>
Geplakt uit <https://www.sciencedaily.com/releases/2018/02/180222162005.htm>
For the Quantum FFF
Theory solution , see:
Dipole Repeller
Gravity Effects at Different Universal Scales as the Origin of Large Scale and
Local Quantum Gravity and Hubble Redshift.
