It is shown that the formation of a Bose-condensate of delocalized deuterons in solid solutions of metals and deuterium leads to the possibility of a d-d-fusion reaction in which one superfluid deuteron and one deuter...It is shown that the formation of a Bose-condensate of delocalized deuterons in solid solutions of metals and deuterium leads to the possibility of a d-d-fusion reaction in which one superfluid deuteron and one deuteron that does not participate in superfluid motion participate.Overcoming the Coulomb barrier is due to the large kinetic energy of macroscopic superfluid motion.It is shown that the intensity of the nuclear reaction depends on the velocity of the superfluid motion and,as a consequence,on the magnitude of the vector B of the external magnetic field.In the London Electrodynamics approximation,a linear dependence of the power released during the nuclear reaction on the magnitude of the vector B of the external magnetic field is obtained.展开更多
The idea of space-time as a combination of shapeless fundamental elements is proposed.The history of the development of ideas about the discrete space-time structure is analyzed.Quantum space-time is considered as a s...The idea of space-time as a combination of shapeless fundamental elements is proposed.The history of the development of ideas about the discrete space-time structure is analyzed.Quantum space-time is considered as a set of quantum states defined on a set of discretizations with an arbitrary shape of the boundaries of regions.The fundamental element of such space-time is described by the totality of its probabilistic characteristics.We consider a concept in which space-time is the only quantum object,and all material particles and interaction carriers are described as excited states of the fundamental elements of this quantum object.展开更多
文摘It is shown that the formation of a Bose-condensate of delocalized deuterons in solid solutions of metals and deuterium leads to the possibility of a d-d-fusion reaction in which one superfluid deuteron and one deuteron that does not participate in superfluid motion participate.Overcoming the Coulomb barrier is due to the large kinetic energy of macroscopic superfluid motion.It is shown that the intensity of the nuclear reaction depends on the velocity of the superfluid motion and,as a consequence,on the magnitude of the vector B of the external magnetic field.In the London Electrodynamics approximation,a linear dependence of the power released during the nuclear reaction on the magnitude of the vector B of the external magnetic field is obtained.
文摘The idea of space-time as a combination of shapeless fundamental elements is proposed.The history of the development of ideas about the discrete space-time structure is analyzed.Quantum space-time is considered as a set of quantum states defined on a set of discretizations with an arbitrary shape of the boundaries of regions.The fundamental element of such space-time is described by the totality of its probabilistic characteristics.We consider a concept in which space-time is the only quantum object,and all material particles and interaction carriers are described as excited states of the fundamental elements of this quantum object.