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On the Observables of Renormalizable Interactions

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arxiv 2310.00586 v4 pith:MKIINZJV submitted 2023-10-01 hep-ph hep-th

On the Observables of Renormalizable Interactions

classification hep-ph hep-th
keywords correctionindependentmassquantumregularizationsamefiniteobservable
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We reconsider the renormalization of scalar mass and point out that the quantum correction to the physical observable, as opposed to the bare parameter, of a renormalizable operator, is technically insensitive to ultraviolet physics and independent of the regularization scheme. It is expressed as the difference in the same quantities at different energy scales, maintaining the same asymptotics. Thus, any sensible regularization cancels out the divergences, including the quadratic ones, and yields the same finite corrections. To this end, we first show that the vacuum polarization of quantum electrodynamics is independent of the regularization scheme and a gauge-dependent quadratic divergence is canceled in the observable. We then calculate the quantum correction to the Higgs mass squared by the top-quark loop. It is again finite and regularization-scheme independent. For large external momentum, the correction of the pole mass-squared is dominated by power running, resulting in an order of 1 percent correction. In particular, the effect of heavy fields on the scalar mass correction is suppressed.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Gauge-Invariant Off-Shell Mass

    hep-th 2026-07 conditional novelty 6.5

    A segment-local Ward–Takahashi cancellation makes the fermion self-energy equal to its Feynman-gauge value off shell, yielding a gauge-invariant, on-shell-renormalized mass function m(q).

  2. Natural Higgs Mass from Power-Law Running

    hep-ph 2026-03 conditional novelty 5.0

    Power-law running of the renormalized scalar mass function maps an order-one GUT boundary condition to the electroweak Higgs mass via the SM's small top-dominated anomalous dimension, without protective symmetries.