A. , L. Tsujikawa, and S. Dark-energy, Theory and Observations, 2010.

B. and G. , Particle Dark Matter. Observations, models and searches, 2010.

D. , S. , B. Rajat, and K. , Dark matter and dark energy from Bose-Einstein condensate

S. and V. I. , Physical Vacuum is a Special Superfluid Medium, Selected Topics in Applications of Quantum Mechanics, 2015.

V. and G. E. , The Universe in a helium droplet, Int. Ser. Monogr. Phys, vol.117, 2003.

V. and G. E. , The Superfluid Universe, Int. Ser. Monogr. Phys, vol.156, pp.570-618, 2013.

H. and K. , A Superfluid Universe, World Scientific, 2016.

H. and K. , Dark energy and dark matter in a superfluid universe, 2013.

B. , D. Brazhkin, V. V. Trachenko, and K. , The phonon theory of liquid thermodynamics, Sci. Rep, vol.2, p.421, 2012.

Z. , H. Yi, J. Li, M. Xiao, J. Zhang et al., Observation of chiral phonons, Science, vol.359, pp.579-582, 2018.

L. , D. Shi, and J. , Phys. Rev. Lett, vol.119, p.75301, 2017.

R. , E. Salesi, and G. , About kinematics and hydrodynamics of spinning particles: Some simple considerations, 1996.

C. , A. Bruun, and G. M. , Landau Effective Interaction between Quasiparticles in a Bose-Einstein Condensate, Phys. Rev. X, vol.8, p.31042, 2018.

D. , F. Giorgini, S. Pitaevskii, L. P. Stringari, and A. , Rev. Mod. Phys, vol.71, p.463, 1999.

E. and S. , On the Role of Spin in Quantum Mechanics, 1999.

S. , G. Recami, and E. , Hydrodynamical reformulation and quantum limit of the Barut-Zanghi Theory, Foundations of Physics Letters, vol.10, issue.6, 1997.

R. , E. Salesi, and G. , Phys. Rev. A57, vol.98, 1998.

V. , A. Krstulovic, G. Proment, D. Salman, and H. , A Vortex Filament Tracking Method for the Gross-Pitaevskii Model of a Superfluid, 2016.

A. , A. Pullin, and J. , Loop Quantum Gravity, 2017.

R. , C. Vidotto, and F. , Covariant Loop Quantum Gravity: An Elementary Introduction to Quantum Gravity and Spinfoam Theory, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01258362

I. A. Pshenichnyuk, Pair interactions of heavy vortices in quantum fluids, 2017.

F. and M. , Physical vacuum as a dilatant fluid yields exact solutions to Pioneer anomaly and Mercury's perihelion precession, Can. J. Phys, 2018.

F. and M. , Relativistic mass due to dilatant vacuum and quantum formula for relativistic kinetic energy, 2019.

C. and R. T. , Gravity as quantum foam in-flow

F. and M. , Hydrodynamics of the Dark Superfluid: III. Superfluid Quantum Gravity, 2017.

D. and W. , animation of strong interaction of Fig, vol.3

J. and H. , Topological characterization of leptons, quarks and hadrons, Phys. Lett. B, vol.104, pp.207-211, 1981.

C. , M. Cardoso, N. Bicudo, and P. , Lattice QCD computation of the colour fields for the static hybrid quark-gluon-antiquark system, and microscopic study of the Casimir scaling, Phys. Rev. D, vol.81, p.34504, 2010.

F. , R. O. Van, A. , J. Burgess, and E. , Pioneer: first to Jupiter, Saturn, and beyond. NASA Scientific and Technical Information Office, Washington D.C, 1980.