Generalized generating functional for mixed-representation Green's functions: A quantum-mechanical approach

Abstract: When one tries to take into account the non-trivial vacuum structure of Quantum Field Theory, the standard functional-integral tools such as generating functionals or transitional amplitudes, are often quite inadequate for such purposes. Here we propose a generalized generating functional for Green's functions which allows to easily distinguish among a continuous set of vacua that are mutually connected via unitary canonical transformations. In order to keep our discussion as simple as possible, we limit ourse… Show more

“…In fact, issues with boundary conditions in general situations involving unitarily inequivalent vacua have been shown to require quite subtle treatments under the functional approach. 18,19 Hence, instead of using the aforementioned functional technique, we proceed with the more standard diagrammatic approach for calculating potentials from the Lorentzinvariant Feynman amplitudes. Although this method is fully equivalent to the above functional approach, 17 its physical basis arises much more transparently in the actual calculation.…”

Unitarily inequivalent vacua and long-range forces: Phenomenology with scalar boson mass-shift

“…In fact, issues with boundary conditions in general situations involving unitarily inequivalent vacua have been shown to require quite subtle treatments under the functional approach. 18,19 Hence, instead of using the aforementioned functional technique, we proceed with the more standard diagrammatic approach for calculating potentials from the Lorentzinvariant Feynman amplitudes. Although this method is fully equivalent to the above functional approach, 17 its physical basis arises much more transparently in the actual calculation.…”

Unitarily inequivalent vacua and long-range forces: Phenomenology with scalar boson mass-shift

“…Although some basic puzzles in the physics of neutrinos have been resolved, especially since the solar neutrino problem [4][5][6][7] has been understood and explained in terms of the neutrino oscillation mechanism [8,9] together with the MSW effect [10,11], some fundamental questions remain unanswered, such as whether neutrinos are Dirac or Majorana fermions. 1 Another important open issue concerns the impossibility of relating the flavor and the mass bases by means of unitary transformations in the framework of quantum field theory [13][14][15][16][17][18].…”

Neutrino Dynamics in a Quantum-Corrected Schwarzschild Spacetime

Schwinger-Dyson equations and flavor mixing