Attractor states and infrared scaling in de Sitter space

The renormalized expectation value of the energy-momentum tensor for a scalar field with any mass m and curvature coupling {xi} is studied for an arbitrary homogeneous and isotropic physical initial state in de Sitter spacetime. We prove quite generally that has a fixed point attractor behavior at...

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Veröffentlicht in:	Physical review. D, Particles and fields Particles and fields, 2000-12, Vol.62 (12), Article 124019
Hauptverfasser:	Anderson, Paul R., Eaker, Wayne, Habib, Salman, Molina-París, Carmen, Mottola, Emil
Format:	Artikel
Sprache:	eng
Schlagworte:	ATTRACTORS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ENERGY-MOMENTUM TENSOR EXPECTATION VALUE SCALAR FIELDS
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container_issue	12
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container_title	Physical review. D, Particles and fields
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creator	Anderson, Paul R. Eaker, Wayne Habib, Salman Molina-París, Carmen Mottola, Emil
description	The renormalized expectation value of the energy-momentum tensor for a scalar field with any mass m and curvature coupling {xi} is studied for an arbitrary homogeneous and isotropic physical initial state in de Sitter spacetime. We prove quite generally that has a fixed point attractor behavior at late times, which depends only on m and {xi}, for any fourth order adiabatic state that is infrared finite. Specifically, when m{sup 2}+{xi}R>0, approaches the Bunch-Davies de Sitter invariant value at late times, independently of the initial state. When m={xi}=0, it approaches instead the de Sitter invariant Allen-Folacci value. When m=0 and {xi}{>=}0 we show that the state independent asymptotic value of the energy-momentum tensor is proportional to the conserved geometrical tensor {sup (3)}H{sub ab}, which is related to the behavior of the quantum effective action of the scalar field under global Weyl rescaling. This relationship serves to generalize the definition of the trace anomaly in the infrared for massless, nonconformal fields. In the case m{sup 2}+{xi}R=0, but m and {xi} separately different from zero, grows linearly with cosmic time at late times. For most values of m{sup 2} and {xi} in the tachyonic cases, m{sup 2}+{xi}R
doi_str_mv	10.1103/PhysRevD.62.124019
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We prove quite generally that <T{sub ab}> has a fixed point attractor behavior at late times, which depends only on m and {xi}, for any fourth order adiabatic state that is infrared finite. Specifically, when m{sup 2}+{xi}R>0, <T{sub ab}> approaches the Bunch-Davies de Sitter invariant value at late times, independently of the initial state. When m={xi}=0, it approaches instead the de Sitter invariant Allen-Folacci value. When m=0 and {xi}{>=}0 we show that the state independent asymptotic value of the energy-momentum tensor is proportional to the conserved geometrical tensor {sup (3)}H{sub ab}, which is related to the behavior of the quantum effective action of the scalar field under global Weyl rescaling. This relationship serves to generalize the definition of the trace anomaly in the infrared for massless, nonconformal fields. In the case m{sup 2}+{xi}R=0, but m and {xi} separately different from zero, <T{sub ab}> grows linearly with cosmic time at late times. 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D, Particles and fields</title><description>The renormalized expectation value of the energy-momentum tensor for a scalar field with any mass m and curvature coupling {xi} is studied for an arbitrary homogeneous and isotropic physical initial state in de Sitter spacetime. We prove quite generally that <T{sub ab}> has a fixed point attractor behavior at late times, which depends only on m and {xi}, for any fourth order adiabatic state that is infrared finite. Specifically, when m{sup 2}+{xi}R>0, <T{sub ab}> approaches the Bunch-Davies de Sitter invariant value at late times, independently of the initial state. When m={xi}=0, it approaches instead the de Sitter invariant Allen-Folacci value. When m=0 and {xi}{>=}0 we show that the state independent asymptotic value of the energy-momentum tensor is proportional to the conserved geometrical tensor {sup (3)}H{sub ab}, which is related to the behavior of the quantum effective action of the scalar field under global Weyl rescaling. This relationship serves to generalize the definition of the trace anomaly in the infrared for massless, nonconformal fields. In the case m{sup 2}+{xi}R=0, but m and {xi} separately different from zero, <T{sub ab}> grows linearly with cosmic time at late times. 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D, Particles and fields</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Anderson, Paul R.</au><au>Eaker, Wayne</au><au>Habib, Salman</au><au>Molina-París, Carmen</au><au>Mottola, Emil</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Attractor states and infrared scaling in de Sitter space</atitle><jtitle>Physical review. D, Particles and fields</jtitle><date>2000-12-15</date><risdate>2000</risdate><volume>62</volume><issue>12</issue><artnum>124019</artnum><issn>0556-2821</issn><eissn>1089-4918</eissn><abstract>The renormalized expectation value of the energy-momentum tensor for a scalar field with any mass m and curvature coupling {xi} is studied for an arbitrary homogeneous and isotropic physical initial state in de Sitter spacetime. We prove quite generally that <T{sub ab}> has a fixed point attractor behavior at late times, which depends only on m and {xi}, for any fourth order adiabatic state that is infrared finite. Specifically, when m{sup 2}+{xi}R>0, <T{sub ab}> approaches the Bunch-Davies de Sitter invariant value at late times, independently of the initial state. When m={xi}=0, it approaches instead the de Sitter invariant Allen-Folacci value. When m=0 and {xi}{>=}0 we show that the state independent asymptotic value of the energy-momentum tensor is proportional to the conserved geometrical tensor {sup (3)}H{sub ab}, which is related to the behavior of the quantum effective action of the scalar field under global Weyl rescaling. This relationship serves to generalize the definition of the trace anomaly in the infrared for massless, nonconformal fields. In the case m{sup 2}+{xi}R=0, but m and {xi} separately different from zero, <T{sub ab}> grows linearly with cosmic time at late times. For most values of m{sup 2} and {xi} in the tachyonic cases, m{sup 2}+{xi}R<0, <T{sub ab}> grows exponentially at late cosmic times for all physically admissible initial states.</abstract><cop>United States</cop><pub>The American Physical Society</pub><doi>10.1103/PhysRevD.62.124019</doi></addata></record>
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title	Attractor states and infrared scaling in de Sitter space
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