Skip to main content
CenXiv.org
此网站处于试运行阶段,支持我们!
我们衷心感谢所有贡献者的支持。
贡献
赞助
cenxiv logo > hep-th > arXiv:2402.11598v2

帮助 | 高级搜索

高能物理 - 理论

arXiv:2402.11598v2 (hep-th)
[提交于 2024年2月18日 (v1) ,修订后的 2024年10月11日 (此版本, v2) , 最新版本 2025年3月15日 (v3) ]

标题: 伪标量场作为幻影场的可能候选

标题: Pseudo-Scalar Field as a Possible Candidate for Phantom Field

Authors:E. Harikumar, R. P. Malik
摘要: We demonstrate the existence of a single pseudo-scalar (PS) field in the mathematically backed and parity preserving modifications of the standard St${\ddot u}$ckelberg formalism (SSF) in the context of the Lagrangian formulation of the (i) two (1 + 1)-dimensional (2D) massive Abelian 1-form gauge theory, (ii) three (2 + 1)-dimensional (3D) massive Abelian 2-form gauge theory, and (iii) four (3 + 1)-dimensional (4D) massive Abelian 3-form gauge theory. This PS field always turns-up with the (i) negative kinetic term, and (ii) higher order derivative terms. The latter terms are rendered into the well-defined terms due to the imposition of the on-shell condition for the PS field which is derived from the properly gauge-fixed Lagrangian densities for the above theories. These Lagrangian densities incorporate into themselves the (i) PS field with the negative kinetic term, and (ii) pure scalar field with the positive kinetic term. However, both these fields satisfy the Klein-Gordon (KG) equation of motion. The PS field (having the negative kinetic term and a well-defined mass) is one of the possible candidates for the ``phantom'' field which plays a crucial role in the cyclic, bouncing and self-accelerated cosmological models of the Universe. The ``exotic'' PS field also satisfies one of the criteria for being a possible candidate for dark matter
摘要: We demonstrate the existence of a single pseudo-scalar (PS) field in the mathematically backed and parity preserving modifications of the standard St${\ddot u}$ckelberg formalism (SSF) in the context of the Lagrangian formulation of the (i) two (1 + 1)-dimensional (2D) massive Abelian 1-form gauge theory, (ii) three (2 + 1)-dimensional (3D) massive Abelian 2-form gauge theory, and (iii) four (3 + 1)-dimensional (4D) massive Abelian 3-form gauge theory. This PS field always turns-up with the (i) negative kinetic term, and (ii) higher order derivative terms. The latter terms are rendered into the well-defined terms due to the imposition of the on-shell condition for the PS field which is derived from the properly gauge-fixed Lagrangian densities for the above theories. These Lagrangian densities incorporate into themselves the (i) PS field with the negative kinetic term, and (ii) pure scalar field with the positive kinetic term. However, both these fields satisfy the Klein-Gordon (KG) equation of motion. The PS field (having the negative kinetic term and a well-defined mass) is one of the possible candidates for the ``phantom'' field which plays a crucial role in the cyclic, bouncing and self-accelerated cosmological models of the Universe. The ``exotic'' PS field also satisfies one of the criteria for being a possible candidate for dark matter
评论: LaTeX文件,14页 v2:19页,标题和正文有重大修改,参考文献扩展
主题: 高能物理 - 理论 (hep-th)
引用方式: arXiv:2402.11598 [hep-th]
  (或者 arXiv:2402.11598v2 [hep-th] 对于此版本)
  https://doi.org/10.48550/arXiv.2402.11598
通过 DataCite 发表的 arXiv DOI

提交历史

来自: Rudra Prakash Malik [查看电子邮件]
[v1] 星期日, 2024 年 2 月 18 日 14:27:48 UTC (15 KB)
[v2] 星期五, 2024 年 10 月 11 日 08:41:57 UTC (19 KB)
[v3] 星期六, 2025 年 3 月 15 日 08:55:57 UTC (20 KB)
全文链接:

获取论文:

    查看标题为《》的 PDF
  • 查看中文 PDF
  • 查看 PDF
  • HTML(实验性)
  • 其他格式
许可图标 查看许可
当前浏览上下文:
hep-th
< 上一篇   |   下一篇 >
新的 | 最近的 | 2024-02

参考文献与引用

  • NASA ADS
  • 谷歌学术搜索
  • 语义学者
a 导出 BibTeX 引用 加载中...

BibTeX 格式的引用

×
数据由提供:

收藏

BibSonomy logo Reddit logo

文献和引用工具

文献资源探索 (什么是资源探索?)
连接的论文 (什么是连接的论文?)
Litmaps (什么是 Litmaps?)
scite 智能引用 (什么是智能引用?)

与本文相关的代码,数据和媒体

alphaXiv (什么是 alphaXiv?)
CatalyzeX 代码查找器 (什么是 CatalyzeX?)
DagsHub (什么是 DagsHub?)
Gotit.pub (什么是 GotitPub?)
Hugging Face (什么是 Huggingface?)
带有代码的论文 (什么是带有代码的论文?)
ScienceCast (什么是 ScienceCast?)

演示

复制 (什么是复制?)
Hugging Face Spaces (什么是 Spaces?)
TXYZ.AI (什么是 TXYZ.AI?)

推荐器和搜索工具

影响之花 (什么是影响之花?)
核心推荐器 (什么是核心?)
IArxiv 推荐器 (什么是 IArxiv?)
  • 作者
  • 地点
  • 机构
  • 主题

arXivLabs:与社区合作伙伴的实验项目

arXivLabs 是一个框架,允许合作伙伴直接在我们的网站上开发和分享新的 arXiv 特性。

与 arXivLabs 合作的个人和组织都接受了我们的价值观,即开放、社区、卓越和用户数据隐私。arXiv 承诺这些价值观,并且只与遵守这些价值观的合作伙伴合作。

有一个为 arXiv 社区增加价值的项目想法吗? 了解更多关于 arXivLabs 的信息.

这篇论文的哪些作者是支持者? | 禁用 MathJax (什么是 MathJax?)
  • 关于
  • 帮助
  • contact arXivClick here to contact arXiv 联系
  • 订阅 arXiv 邮件列表点击这里订阅 订阅
  • 版权
  • 隐私政策
  • 网络无障碍帮助
  • arXiv 运营状态
    通过...获取状态通知 email 或者 slack

京ICP备2025123034号