Dark Matter and Dark Energy as a Derivate from Cosmic Photon Radiation

For many decades now, intensive efforts have been undertaken by physicists and cosmologists
around the world to investigate dark matter (DM), without noticeable success to date. This situation
leads me to believe that one of the assumptions underlying the current doctrine in physics may well
be erroneous or incomplete – since a breakthrough in this field of physics and cosmology would
otherwise surely have already taken place by now.
For the past years, the CERN Nuclear Research Centre has set itself the task of using the LHC
(upgraded to 13 TeV) to investigate the still completely mysterious phenomenon of dark matter. The
researchers at CERN favour the assumption – shared by the majority of physicists and cosmologists,
that DM consists of massive non-baryonic particles (so-called WIMPs, Weakly Interacting
Massive Particles) hitherto completely unknown to us, which produce a non-baryonic, static
gravitational field distributed throughout the entire cosmos.
I cast doubt on the above assumption that DM is massive in nature. As this paper will show, DM can
be far better (and more simply) explained in terms of a non-massive gravitational derivate of those
photons consumed in the expansion of cosmic space (by performing the work of expansion), those
photons thereby being transformed into static physical quantities. This gravitational derivate creates a
free gravitational field (decoupled from the other forces of nature) of non-baryonic, static nature,
regionally varying in intensity, and this is known as dark matter.