Higgs modulation of emergent mass as revealed in kaon and pion parton distributions

Z. F. Cui; M. Ding; F. Gao; K. Raya; D. Binosi; L. Chang; C. D. Roberts; J. Rodríguez-Quintero; S. M. Schmidt

doi:10.1140/epja/s10050-020-00318-2

Higgs modulation of emergent mass as revealed in kaon and pion parton distributions

Z. F. Cui, M. Ding, F. Gao, K. Raya, D. Binosi, L. Chang, C. D. Roberts^*, J. Rodríguez-Quintero, S. M. Schmidt

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

Strangeness was discovered roughly seventy years ago, lodged in a particle now known as the kaon, K. Kindred to the pion, π; both states are massless in the absence of Higgs-boson couplings. Kaons and pions are Nature’s most fundamental Nambu–Goldstone modes. Their properties are largely determined by the mechanisms responsible for emergent mass in the standard model, but modulations applied by the Higgs are crucial to Universe evolution. Despite their importance, little is known empirically about K and π structure. This study delivers the first parameter-free predictions for all K distribution functions (DFs) and comparisons with the analogous π distributions, i.e. the one-dimensional maps that reveal how the light-front momentum of these states is shared amongst the gluons and quarks from which they are formed. The results should stimulate improved analyses of existing data and motivate new experiments sensitive to all K and π DFs.

Original language	English
Article number	5
Journal	European Physical Journal A
Volume	57
Issue number	1
DOIs	https://doi.org/10.1140/epja/s10050-020-00318-2
Publication status	Published - Jan 2021
Externally published	Yes

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title = "Higgs modulation of emergent mass as revealed in kaon and pion parton distributions",

abstract = "Strangeness was discovered roughly seventy years ago, lodged in a particle now known as the kaon, K. Kindred to the pion, π; both states are massless in the absence of Higgs-boson couplings. Kaons and pions are Nature{\textquoteright}s most fundamental Nambu–Goldstone modes. Their properties are largely determined by the mechanisms responsible for emergent mass in the standard model, but modulations applied by the Higgs are crucial to Universe evolution. Despite their importance, little is known empirically about K and π structure. This study delivers the first parameter-free predictions for all K distribution functions (DFs) and comparisons with the analogous π distributions, i.e. the one-dimensional maps that reveal how the light-front momentum of these states is shared amongst the gluons and quarks from which they are formed. The results should stimulate improved analyses of existing data and motivate new experiments sensitive to all K and π DFs.",

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AU - Cui, Z. F.

AU - Ding, M.

AU - Gao, F.

AU - Raya, K.

AU - Binosi, D.

AU - Chang, L.

AU - Roberts, C. D.

AU - Rodríguez-Quintero, J.

AU - Schmidt, S. M.

PY - 2021/1

Y1 - 2021/1

N2 - Strangeness was discovered roughly seventy years ago, lodged in a particle now known as the kaon, K. Kindred to the pion, π; both states are massless in the absence of Higgs-boson couplings. Kaons and pions are Nature’s most fundamental Nambu–Goldstone modes. Their properties are largely determined by the mechanisms responsible for emergent mass in the standard model, but modulations applied by the Higgs are crucial to Universe evolution. Despite their importance, little is known empirically about K and π structure. This study delivers the first parameter-free predictions for all K distribution functions (DFs) and comparisons with the analogous π distributions, i.e. the one-dimensional maps that reveal how the light-front momentum of these states is shared amongst the gluons and quarks from which they are formed. The results should stimulate improved analyses of existing data and motivate new experiments sensitive to all K and π DFs.

AB - Strangeness was discovered roughly seventy years ago, lodged in a particle now known as the kaon, K. Kindred to the pion, π; both states are massless in the absence of Higgs-boson couplings. Kaons and pions are Nature’s most fundamental Nambu–Goldstone modes. Their properties are largely determined by the mechanisms responsible for emergent mass in the standard model, but modulations applied by the Higgs are crucial to Universe evolution. Despite their importance, little is known empirically about K and π structure. This study delivers the first parameter-free predictions for all K distribution functions (DFs) and comparisons with the analogous π distributions, i.e. the one-dimensional maps that reveal how the light-front momentum of these states is shared amongst the gluons and quarks from which they are formed. The results should stimulate improved analyses of existing data and motivate new experiments sensitive to all K and π DFs.

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Higgs modulation of emergent mass as revealed in kaon and pion parton distributions

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