The massless Nelson model describes non-relativistic, spinless quantum particles interacting with a relativistic, massless, scalar quantum field. The interaction is linear in the field. We analyze the one particle sector. First, we construct the renormalized mass shell of the non-relativistic particle for an arbitrarily small infrared cut-off that turns off the interaction with the low energy modes of the field. No ultraviolet cut-off is imposed. Second, we implement a suitable Bogolyubov transformation of the Hamiltonian in the infrared regime. This transformation depends on the total momentum of the system and is non-unitary as the infrared cut-off is removed. For the transfor...
International audienceStarting from the N-particle Nelson Hamiltonian defined by imposing an ultravi...
We consider the ground state problem of the Nelson model. The Nelson model is a quantum mechanical m...
64 pages, no figures.-- MSC2000 codes: 81T05, 81R15.-- Dedicated to Rudolf Haag on his 80th birthday...
The massless Nelson model describes non-relativistic, spinless quantum particles interactin...
AbstractThe massless Nelson model describes non-relativistic, spinless quantum particles interacting...
We consider a model of quantum particles coupled to a massless quantum scalar field, called the mass...
We consider a model of quantum particles coupled to a massless quantum scalar field, called the mass...
Abstract. In the one-particle sector of Nelson’s massless model, the one-particle states are constru...
Abstract.: In the one-particle sector of Nelson's massless model, we construct scattering states in ...
AbstractThe Yukawa-like interaction of a nonrelativistic “nucleon” field with a relativistic “meson”...
The classical limit and the infrared divergence problem for a non-relativistic charged quantum parti...
Starting from the N-particle Nelson Hamiltonian defined by imposing an ultraviolet cutoff, we perfor...
We consider the renormalized relativistic Nelson model in two spatial dimensions for a finite number...
AbstractThis work addresses the problem of infrared mass renormalization for a non-relativistic elec...
The asymptotic behavior of the effective mass m eff (Λ) of the so-called Nelson model in quantum fie...
International audienceStarting from the N-particle Nelson Hamiltonian defined by imposing an ultravi...
We consider the ground state problem of the Nelson model. The Nelson model is a quantum mechanical m...
64 pages, no figures.-- MSC2000 codes: 81T05, 81R15.-- Dedicated to Rudolf Haag on his 80th birthday...
The massless Nelson model describes non-relativistic, spinless quantum particles interactin...
AbstractThe massless Nelson model describes non-relativistic, spinless quantum particles interacting...
We consider a model of quantum particles coupled to a massless quantum scalar field, called the mass...
We consider a model of quantum particles coupled to a massless quantum scalar field, called the mass...
Abstract. In the one-particle sector of Nelson’s massless model, the one-particle states are constru...
Abstract.: In the one-particle sector of Nelson's massless model, we construct scattering states in ...
AbstractThe Yukawa-like interaction of a nonrelativistic “nucleon” field with a relativistic “meson”...
The classical limit and the infrared divergence problem for a non-relativistic charged quantum parti...
Starting from the N-particle Nelson Hamiltonian defined by imposing an ultraviolet cutoff, we perfor...
We consider the renormalized relativistic Nelson model in two spatial dimensions for a finite number...
AbstractThis work addresses the problem of infrared mass renormalization for a non-relativistic elec...
The asymptotic behavior of the effective mass m eff (Λ) of the so-called Nelson model in quantum fie...
International audienceStarting from the N-particle Nelson Hamiltonian defined by imposing an ultravi...
We consider the ground state problem of the Nelson model. The Nelson model is a quantum mechanical m...
64 pages, no figures.-- MSC2000 codes: 81T05, 81R15.-- Dedicated to Rudolf Haag on his 80th birthday...
Add to ORKG