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Research PaperResearchia:202607.15014

The Infraparticle Edge

Soo-Jong Rey

Abstract

I derive the charged-particle spectral edge from the quantum instrument of soft QED. I use two projections of that instrument. Tracing over unresolved photons gives the reduced hard-sector channel. Pushing the outcomes to total energy gives the inclusive energy distribution. Its Laplace exponent is fixed by the diagonal soft intensity. For ${\rm d} N_h(ω)=η_h{\rm d}ω/ω+{\rm d} N_{h,\mathrm{reg}}(ω)$, I obtain $ρ_{\mathrm{inc}}(s)\sim Cθ(s-m^2)(s-m^2)^{-1+η_h}$. I retain the coherence kernel and ...

Submitted: July 15, 2026Subjects: Quantum Physics; Quantum Computing

Description / Details

I derive the charged-particle spectral edge from the quantum instrument of soft QED. I use two projections of that instrument. Tracing over unresolved photons gives the reduced hard-sector channel. Pushing the outcomes to total energy gives the inclusive energy distribution. Its Laplace exponent is fixed by the diagonal soft intensity. For dNh(ω)=ηhdω/ω+dNh,reg(ω){\rm d} N_h(ω)=η_h{\rm d}ω/ω+{\rm d} N_{h,\mathrm{reg}}(ω), I obtain ρinc(s)Cθ(sm2)(sm2)1+ηhρ_{\mathrm{inc}}(s)\sim Cθ(s-m^2)(s-m^2)^{-1+η_h}. I retain the coherence kernel and derive hard-sector dephasing and the spectral edge from two contractions of one soft environment. The diagonal coefficient κaaκ_{aa} fixes the endpoint exponent, while 12(κaa+κbb2Reκba)\frac12(κ_{aa}+κ_{bb}-2\operatorname{Re}κ_{ba}) fixes the dephasing exponent between hard alternatives. I then classify infrared energy marginals, derive the finite-resolution residue Z(μ)=(μ/Λ)ηhZ(μ)=(μ/Λ)^{η_h}, prove stability under infrared-integrable perturbations, and separate the bath exponent from a hard threshold exponent. For the one-electron spectral measure, the hard threshold factor is regular. The resulting edge has the local power law of a gapped unparticle spectrum, while its exponent remains a response coefficient of the unresolved photon sector.


Source: arXiv:2607.13001v1 - http://arxiv.org/abs/2607.13001v1 PDF: https://arxiv.org/pdf/2607.13001v1 Original Link: http://arxiv.org/abs/2607.13001v1

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Date:
Jul 15, 2026
Topic:
Quantum Computing
Area:
Quantum Physics
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