Please use this identifier to cite or link to this item: http://pucir.inflibnet.ac.in:8080/jspui/handle/123456789/1058
Title: Casimir wormhole solutions in ๐‘“(๐‘…,๎ˆธ๐‘š ) gravity
Authors: Lalvohbika, J
Keywords: Casimir effect Wormhole Modified gravity f(R, ๎ˆธm) gravity Morrisโ€“Thorne spacetime
Issue Date: 1-Mar-2024
Abstract: In this paper, we study the Casimir effect on the wormhole geometry in ๐‘“(๐‘…,๎ˆธ๐‘š ) gravity. We derive the field equations for the generic ๐‘“(๐‘…,๎ˆธ๐‘š ) function by assuming static and spherically symmetric Morrisโ€“Thorne wormhole metric. Then we consider two non-linear ๐‘“(๐‘…,๎ˆธ๐‘š ) models, specifically, ๐‘“(๐‘…,๎ˆธ๐‘š ) = ๐‘… 2 +๎ˆธ ๐›ฝ ๐‘š and ๐‘“(๐‘…,๎ˆธ๐‘š ) = ๐‘… 2 +(1+๐›ผ๎ˆธ๐‘š )๎ˆธ๐‘š where ๐›ผ and ๐›ฝ are free parameters. We derive the shape functions for wormholes by utilizing the Casimir effect and examining their existence. Subsequently, we analyse the obtained wormhole solutions for each scenario, assessing the energy conditions at the wormhole throat with a radius of ๐‘Ÿ0 . Our findings reveal that for some arbitrary quantities, there is a violation of classical energy conditions at the wormhole throat. Additionally, we delve into the behaviour of the equation of state (EoS) for each case. Furthermore, we explore the stability of the Casimir effect wormhole solutions by employing the generalized Tolmanโ€“Oppenheimerโ€“Volkoff (TOV) equation. Finally, we utilize the volume integral quantifier to determine the amount of exotic matter required near the wormhole throat for both models.
URI: http://pucir.inflibnet.ac.in:8080/jspui/handle/123456789/1058
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