본 논문은 뉴턴 역학의 인식론적 의미와 해석 가능성을 분석하며, 뉴턴 역학이 명확하고 일관된 해석 프레임워크를 제공하지 못한다고 주장합니다.
Classical mechanics, in both its Newtonian and non-Newtonian formulations, lacks a clear and consistent framework for understanding the physics it represents, raising questions about its interpretability despite its successful application in various physical systems.
This paper investigates whether the Weak Gravity Conjecture (WGC) and the Weak Cosmic Censorship Conjecture (WCCC) are compatible for charged black holes surrounded by dark matter, finding that they can coexist under specific conditions within the framework of Conformal Field Theory (CFT) thermodynamics.
Semi-Symmetric Metric Gravity (SSMG), a modified gravity theory incorporating torsion, offers a compelling alternative to the standard cosmological model by potentially explaining cosmic acceleration and galactic dynamics without invoking dark matter or a cosmological constant.
This paper presents the first numerical solution for a traversable wormhole in Einsteinian Cubic Gravity, a modified theory of gravity, that does not require exotic matter.
Giant anomalous Hall effect, originating from domain wall skew scattering, is observed in the layered antiferromagnet EuAl2Si2, opening new avenues for spintronics.
본 논문은 커-뉴먼 블랙홀의 비선형 전자기적 확장에 대한 정적 해를 분석하여 빛의 전파, 그림자 형성, 측지선, 시간 지연 효과, 호킹 온도, 엔트로피, 열용량, 터널링을 통한 호킹 복사 방출, 블랙홀의 잔여 질량 및 증발 시간, 준정규 모드와 같은 중력적 특징을 조사합니다.
本論文では、カー・ニューマンブラックホールの非線形電磁気拡張における重力特性、特に光伝播、熱力学、準固有モードに焦点を当て、その物理的意味を詳細に探求しています。
This paper investigates the properties of a static black hole solution within the framework of nonlinear electromagnetism, focusing on its gravitational signatures, thermodynamic characteristics, and potential for evaporation.
The dynamic production account, which posits that the laws of nature actively produce the future from the past, requires a specific formulation of physical laws to be tenable, particularly in light of challenges posed by the need for temporal locality and compatibility with special relativity.