Searching Higgs in Noncommutative Electroweak Model at Photon-Photon Collider

TL;DR

This paper investigates Higgs boson production in a noncommutative spacetime at photon-photon colliders, revealing effects that differ from the Standard Model and exploring implications for unitarity and particle spectra.

Contribution

It introduces a novel analysis of Higgs production in noncommutative electroweak models at photon colliders, comparing with extra-dimensional models and examining unitarity constraints.

Findings

Higgs production process is forbidden in the Standard Model but allowed in noncommutative theory.

Noncommutative effects induce corrections in particle mass spectra and energy distributions.

The process constrains unitarity conditions and predicts accelerated phenomena at high energies.

Abstract

We discuss the process of Higgs boson production in $\gamma\gamma$ collider on noncommutative spacetime and compare the results with large extra dimension in KK graviton channel. Summing all KK mode on IR brane, the affections are in the same order by comparing noncommutatve model prediction. This process is completely forbidden in standard model on unitarity condition and bosonic distribution. In noncommutative theory, the effect is induced by the coordinates noncommutable relation, $[x^{\mu}, x^{\nu}]$ = $i\theta^{\mu\nu}$. Due to the constant background strength tensor does not contain any conserved quantum number, hence, this effort is indicated into particle power spectrum. Particle mass spectrum is corrected by radiational and anisotropic surroundings. The process of $\gamma\gamma\to H^{0}H^{0}$ restricts the unitarity condition in noncommutative field theory. Under power law conservation condition, the neutral Higgs mass below gauge boson resonance will produce a accelerated phenomena as the central energy is higher than $Z_{0}$ gauge boson creation scale. The effects generated from the vast light Higgs particles descend the power rate energy distribution as far as the ambient is under a balance. The fractional rate on polarized polars are very small embedded into the unpolarized surroundings depend on background electric field couplings.