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Ruiz Ruiz, Fernando (2002) UV/IR mixing and the Goldstone theorem in noncommutative field theory. Physics Letters B, 637 . pp. 143167. ISSN 05503213
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Official URL: http://dx.doi.org/10.1016/S05503213(02)004479
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http://arxiv.org/abs/hepth/0202011  Organisation 
http://www.sciencedirect.com  Publisher 
Abstract
Noncommutative IR singularities and UV/IR mixing in relation with the Goldstone theorem for complex scalar field theory are investigated. The classical model has two coupling constants, lambda(1) and lambda(2), associated to the two noncommutative extensions phi* star phi star phi* star phi and phi* star phi* star phi star phi of the interaction term \phi\(4) on commutative spacetime. It is shown that the symmetric phase is one loop renormalizable for all lambda(1) and lambda(2) compatible with perturbation theory, whereas the broken phase is proved to exist at one loop only if lambda(2) = 0, a condition required by the Ward identities for global U(I) invariance. Explicit expressions for the noncommutative IR singularities in the 1PI Green functions of both phases are given. They show that UV/IR duality does not hold for any of the phases and that the broken phase is free of quadratic noncommutative IR singularities. More remarkably, the pion selfenergy does not have noncommutative IR singularities at all, which proves essential to formulate the Goldstone theorem at one loop for all values of the spacetime noncommutativity parameter theta.
Item Type:  Article 

Additional Information:  © 2002 Elsevier Science B.V. All rights reserved. 
Uncontrolled Keywords:  YangMills Theory, OneLoop, Tachyonic Instabilities, String Theory, Unitarity, Diagrams, Model, U(1) 
Subjects:  Sciences > Physics 
ID Code:  25067 
Deposited On:  11 Apr 2014 15:00 
Last Modified:  11 Apr 2014 15:00 
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