%PDF-1.5
%
2 0 obj
<<
/Type /Catalog
/Pages 4 0 R
/Metadata 5 0 R
/PageLabels 6 0 R
>>
endobj
5 0 obj
<<
/Type /Metadata
/Length 4526
/Subtype /XML
>>
stream
2016-04-20T21:47:52+03:00
PScript5.dll Version 5.2.2
2016-04-21T11:58:43+03:00
Acrobat Distiller 10.1.1 (Windows)
application/pdf
The quantum nature of Newton's gravitational constant in cosmological models with superconductivity
A.V. Bukalov (Букалов А.В.) - bukalov.physics@socionic.info
It is shown that in the quantum cosmological model with superconductivity Newton's gravitational constant GN is determined by the density of the primary fermions in the Planck mass at the Fermi surface. These fermions form different phases of condensate, including the phase of “dark energy”.
gravitation
cosmology
primary fermions
energy gap
dark energy
Newton's gravitational constant
International institute of Socionics
uuid:43ca7f75-9557-47a8-9e1c-827c382c0b3a
uuid:6e82eea3-6bc3-45e2-b0c5-cfb076b6bac4
http://physics.socionic.info
endstream
endobj
11 0 obj
<<
/Filter [/FlateDecode]
/Length 1492
>>
stream
HWn6}WQ".9$dE/(Чbl9N&qOux,y7 ^Q8g̙!_%{87nw
06F
. FRx5^p-bF%mƦBZopNqמ:lsε:efgFZ@if=aW %$MB8?;۞>#l{Or8YGqw%NS0kkW$(`Zm~k1Ap4Ʋ^r Khɕo.)\gi