Gravitational Lensing Properties of Generalized Ellis-Bronnikov Wormholes in Four and Five Dimensions
This article investigates the differences in gravitational lensing effects between four-dimensional generalized Ellis-Bronnikov (GEB) wormholes and their five-dimensional counterparts embedded in a warped braneworld background, demonstrating that these models can be distinguished through observations of deflection angles, Einstein ring radii, and image positions.
Wormhole Solutions in f(R, T) = R + λT + λ1T² Gravity with Linear Equation of State
This paper explores the possibility of constructing traversable wormholes within the framework of f(R, T) = R + λT + λ1T² gravity, demonstrating that solutions satisfying all energy conditions can be achieved with a power-law shape function and a linear equation of state.
Traversable Wormholes in the Kiselev Framework: Exploring Energy Conditions and Gravitational Lensing Effects
This research paper explores the possibility of traversable wormholes existing within the framework of Einstein's general relativity by utilizing the Kiselev framework, which incorporates anisotropic fluids like quintessence and phantom energy.
Fermion Behavior Around Sung-Won-Kim Wormholes in a Generalized Kaluza-Klein Gravity Model: Exploring Geometric and Quantum Implications of an Extra Dimension
This research paper investigates the behavior of fermions near Sung-Won-Kim wormholes within a 5-dimensional spacetime model, focusing on the impact of an extra spatial dimension on the wormhole's stability, traversability, and the emergence of quantum phenomena like geometric phases and holonomies.
수정된 대칭 텔레평행 중력 형식론 내에서 웜홀에 의한 빛의 굴절과 암흑 물질로 인한 그림자
본 논문에서는 수정된 대칭 텔레평행 f(Q) 중력 이론의 틀 안에서 암흑 물질 헤일로 내에 존재할 수 있는 웜홀의 형성 가능성과 그 특징을 탐구합니다.
修正対称テレパラレル重力形式におけるダークマターによるワームホールによる光の偏向とその影
修正対称テレパラレル重力形式の枠組みにおいて、ダークマターハローにおけるトラバーサブルワームホールの形成可能性を探求し、その形状と赤方偏移関数を導出し、エネルギー条件を分析し、ワームホールの影と光の偏向について考察する。
Exploring the Feasibility of Traversable Wormholes with Global Monopole Charge: An Analysis of Energy Conditions and Shape Function Impact
This paper investigates the possibility of constructing traversable wormholes with a global monopole charge by analyzing the impact of different shape functions on the energy conditions required for their existence within the framework of general relativity.
Quasinormal Modes of Morris-Thorne Wormholes: A Corrected and Expanded Analysis Using a Unified Spectral Approach
This paper presents a novel spectral method for accurately calculating the quasinormal modes of Morris-Thorne wormholes, correcting previous inaccuracies and demonstrating the limitations of the WKB approximation in this context.
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