Duality of elementary particles like electrons or photons is well known if not fully understood. There is ample research suggesting elementary particles are simply high energy states of universal fields. What appears to be an electron particle could in fact be the high energy excitations of a universal electron field, much like an iceberg is only a fraction of its larger submerged mass. This is the basis of Quantum Field Theory.
Particle properties are manifested when fluctuations within universal fields produce energy spikes that 'push' particles into existence. Below this threshold value, only waveforms would exist in a universal energy field. "In cosmology, zero-point energy is related to the cosmological constant." Zero Point Fluctuations….
"Vacuum Energy is the zero-point energy of ALL the fields in space, which in the Standard Model includes the electromagnetic field, other gauge fields, fermionic fields, and the Higgs field. It is the energy of the vacuum, which in quantum field theory is defined not as empty space but as the ground state of the fields." https://www.scribd.com/document/175053727/Zero-Point-Energy-Wikipedia-The-Free-Encyclopedia….
And research finds the energy difference between vacuum energy and the CC is a 30 order of magnitude difference." If the recent observations pointing toward a cosmological constant of astrophysically relevant magnitude are confirmed, we will be faced with the challenge of explaining not only why the vacuum energy is smaller than expected, but also why it has the specific nonzero value it does." https://core.ac.uk/download/pdf/11920173.pdf https://ned.ipac.caltech.edu/level5/Carroll2/Carroll4.html.
So current known fields contribute to the CC but there are still missing energies, meaning more fields may exist. http://www.dailygalaxy.com/my_weblog/2011/09/the-beast-does-an-undiscovered-quantum-field-collapse-neutron-stars-into-black-holes.html.
My question is: Are there separate universal fields for each elementary particle? And if so, would each field be boundless or infinite in size? I'd love to know if fields actually enter then EXIT black holes. This seems to contradict current theory as even EMR is unable to to escape the Event Horizon but if fields can't exit then they are interrupted or even broken within a black hole.. http://www.iiserpune.ac.in/qft/qft2011/pdf/QFT23/Spenta_Wadia.pdf