Published June 4, 2026
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A Quantum Gravity Boundary from the D3 Framework: The Scale at Which Information Erasure Cost Exceeds the Schwarzschild Radius
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Description
We derive a quantum gravity boundary mass from the D3 information-erasure framework by setting the per-bit D3 displacement equal to the Schwarzschild radius: M_QG = m_P·√(ln2/8π) = 0.166071 m_P. Below this mass, each bit erased costs more than the entire Schwarzschild radius — classical GR breaks down. The ratio D3/r_s obeys an exact power law: D3(M)/r_s(M) = (M_QG/M)², yielding exact integers at rational mass fractions. The Kerr extension gives M_QG(χ) = M_QG·√(f(χ)). At χ→1, M_QG→0. All results verified to ten significant figures. This completes the D3 research series (Papers 1–5).
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D3_QG_Boundary_Paper5_Sharma_2026.pdf
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Additional details
Related works
- Is supplement to
- Preprint: 10.5281/zenodo.20502577 (DOI)
- Preprint: 10.5281/zenodo.20535347 (DOI)
- Preprint: 10.5281/zenodo.20548070 (DOI)
- Preprint: 10.5281/zenodo.20549627 (DOI)
- Is supplemented by
- https://github.com/bsharma173860-oss/d3-research (URL)