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2025
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| Online Access: | https://doi.org/10.5281/zenodo.14786915 |
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| _version_ | 1866902246850035712 |
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| author | Chatterjee, Dristi |
| author_facet | Chatterjee, Dristi |
| contents | <p>We present a novel theoretical framework in which the Higgs field, coupled to an emergent antiHiggs measurement operator, governs mass-energy evolution and spacetime curvature via a HiggsZeno effect. This framework modifies Einstein’s equations by introducing a time-dependent massenergy evolution equation that influences gravitational dynamics. We explore the implications of this<br>model on quantum measurement theory, black hole physics, and cosmology. The Higgs-Zeno effect<br>introduces modifications to the Higgs potential, impacts vacuum stability, and alters mass-energy<br>conservation. We discuss experimental constraints from high-energy colliders, dark matter searches,<br>and gravitational wave detectors. Numerical simulations of Higgs-Zeno mass decay and gravitational<br>modifications are presented, along with their potential astrophysical and cosmological implications.<br>This model provides a testable mechanism linking Higgs interactions with fundamental spacetime<br>properties and may offer insight into black hole entropy dynamics and dark matter phenomenology</p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_14786915 |
| institution | Zenodo |
| language | |
| publishDate | 2025 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Higgs-Zeno Spacetime: Quantum Measurement, Dual Hamiltonians, and Mass-Energy Evolution Chatterjee, Dristi <p>We present a novel theoretical framework in which the Higgs field, coupled to an emergent antiHiggs measurement operator, governs mass-energy evolution and spacetime curvature via a HiggsZeno effect. This framework modifies Einstein’s equations by introducing a time-dependent massenergy evolution equation that influences gravitational dynamics. We explore the implications of this<br>model on quantum measurement theory, black hole physics, and cosmology. The Higgs-Zeno effect<br>introduces modifications to the Higgs potential, impacts vacuum stability, and alters mass-energy<br>conservation. We discuss experimental constraints from high-energy colliders, dark matter searches,<br>and gravitational wave detectors. Numerical simulations of Higgs-Zeno mass decay and gravitational<br>modifications are presented, along with their potential astrophysical and cosmological implications.<br>This model provides a testable mechanism linking Higgs interactions with fundamental spacetime<br>properties and may offer insight into black hole entropy dynamics and dark matter phenomenology</p> |
| title | Higgs-Zeno Spacetime: Quantum Measurement, Dual Hamiltonians, and Mass-Energy Evolution |
| url | https://doi.org/10.5281/zenodo.14786915 |