Infrared Divergence of a Scalar Quantum Field Model on a Pseudo Riemannian Manifold
スポンサーリンク
概要
- 論文の詳細を見る
A scalar quantum field model defined on a pseudo Riemannian manifold is considered. The model is unitarily transformed to the one with a variable mass. By means of a Feynman-Kac-type formula, it is shown that when the variable mass is short range, the Hamiltonian has no ground state. Moreover the infrared divergence of the expectation values of the number of bosons in the ground state is discussed.
- Graduate School of Information Sciences, Tohoku Universityの論文
著者
-
Hiroshima Fumio
Department Of Mathematics University Of Kyushu
-
Suzuki Akito
Department Of Clinical Pharmaceutics School Of Pharmaceutical Sciences Kyushu University Of Health And Welfare
-
SUZUKI Akito
Department of Mathematics, University of Kyushu
-
GÉRARD Christian
Départment de Mathématique, Université de Paris XI
-
G?RARD Christian
Départment de Mathématique, Université de Paris XI
-
PANATI Annalisa
Départment de Mathématique, Université de Paris XI
-
PANATI Annalisa
Départment de Mathématique, Université de Paris XI
関連論文
- Insulin Induces Internalization of the Plasma Membrane 5-Hydroxytryptamine_ (5-HT_) Receptor in the Isolated Human Endothelium-Denuded Saphenous Vein via the Phosphatidylinositol 3-Kinase Pathway
- Translation invariant models in nonrelativistic quantum electrodynamics (量子解析におけるミクロ・マクロ双対性--RIMS共同研究報告集)
- Infrared Divergence of a Scalar Quantum Field Model on a Pseudo Riemannian Manifold
- Fabrication of Lead-Free Piezoelectric KNbO3 Ceramics by Modified Solid State Reaction Method