Probing new physics through CP violation in B(s) ? V µ+µ- decays

Robert Fleischer; Martijn Van Hamersveld; Tim Kortekaas; Anders Rehult; K. Keri Vos

doi:10.1007/JHEP01(2026)048

Probing new physics through CP violation in B(s) ? V µ+µ- decays

Robert Fleischer
, Martijn Van Hamersveld
, Tim Kortekaas
, Anders Rehult
, K. Keri Vos^*

^*Corresponding author for this work

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

Abstract

Rare decays of the kind B → K ^∗μ ⁺μ ⁻ and B _s → ϕμ ⁺μ ⁻ are key players for testing the Standard Model. The current experimental data for their decay rates and angular observables show tensions with the theoretical predictions that may be indications of New Physics. We present a strategy to extract the relevant short-distance coefficients in the presence of new sources of CP violation from a minimal set of observables, utilizing the synergy between the rare modes with vector meson final states and B → Kμ ⁺μ ⁻ decays. Using the current data as a guideline, we illustrate the new method to determine the complex coefficients C9′ and C10′ using only four angular observables. Interestingly, the current experimental picture leaves significant room for CP-violating New Physics. We discuss also the link to leptonic Bs0→μ+μ− decays. Our strategy complements global fit efforts and could also help to disentangle long-distance QCD dynamics from possible new CP-violating interactions.

Original language	English
Article number	48
Number of pages	29
Journal	Journal of High Energy Physics
Volume	2026
Issue number	1
DOIs	https://doi.org/10.1007/JHEP01(2026)048
Publication status	Published - 7 Jan 2026

Keywords

Bottom Quarks
CP Violation
Rare Decays
ASYMMETRIES

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10.1007/JHEP01(2026)048Licence: CC BY

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title = "Probing new physics through CP violation in B(s) ? V µ+µ- decays",

abstract = "Rare decays of the kind B → K ∗μ +μ − and B s → ϕμ +μ − are key players for testing the Standard Model. The current experimental data for their decay rates and angular observables show tensions with the theoretical predictions that may be indications of New Physics. We present a strategy to extract the relevant short-distance coefficients in the presence of new sources of CP violation from a minimal set of observables, utilizing the synergy between the rare modes with vector meson final states and B → Kμ +μ − decays. Using the current data as a guideline, we illustrate the new method to determine the complex coefficients C9′ and C10′ using only four angular observables. Interestingly, the current experimental picture leaves significant room for CP-violating New Physics. We discuss also the link to leptonic Bs0→μ+μ− decays. Our strategy complements global fit efforts and could also help to disentangle long-distance QCD dynamics from possible new CP-violating interactions.",

keywords = "Bottom Quarks, CP Violation, Rare Decays, ASYMMETRIES",

author = "Robert Fleischer and \{Van Hamersveld\}, Martijn and Tim Kortekaas and Anders Rehult and Vos, \{K. Keri\}",

year = "2026",

month = jan,

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doi = "10.1007/JHEP01(2026)048",

language = "English",

volume = "2026",

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issn = "1029-8479",

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T1 - Probing new physics through CP violation in B(s) ? V µ+µ- decays

AU - Fleischer, Robert

AU - Van Hamersveld, Martijn

AU - Kortekaas, Tim

AU - Rehult, Anders

AU - Vos, K. Keri

PY - 2026/1/7

Y1 - 2026/1/7

N2 - Rare decays of the kind B → K ∗μ +μ − and B s → ϕμ +μ − are key players for testing the Standard Model. The current experimental data for their decay rates and angular observables show tensions with the theoretical predictions that may be indications of New Physics. We present a strategy to extract the relevant short-distance coefficients in the presence of new sources of CP violation from a minimal set of observables, utilizing the synergy between the rare modes with vector meson final states and B → Kμ +μ − decays. Using the current data as a guideline, we illustrate the new method to determine the complex coefficients C9′ and C10′ using only four angular observables. Interestingly, the current experimental picture leaves significant room for CP-violating New Physics. We discuss also the link to leptonic Bs0→μ+μ− decays. Our strategy complements global fit efforts and could also help to disentangle long-distance QCD dynamics from possible new CP-violating interactions.

AB - Rare decays of the kind B → K ∗μ +μ − and B s → ϕμ +μ − are key players for testing the Standard Model. The current experimental data for their decay rates and angular observables show tensions with the theoretical predictions that may be indications of New Physics. We present a strategy to extract the relevant short-distance coefficients in the presence of new sources of CP violation from a minimal set of observables, utilizing the synergy between the rare modes with vector meson final states and B → Kμ +μ − decays. Using the current data as a guideline, we illustrate the new method to determine the complex coefficients C9′ and C10′ using only four angular observables. Interestingly, the current experimental picture leaves significant room for CP-violating New Physics. We discuss also the link to leptonic Bs0→μ+μ− decays. Our strategy complements global fit efforts and could also help to disentangle long-distance QCD dynamics from possible new CP-violating interactions.

KW - Bottom Quarks

KW - CP Violation

KW - Rare Decays

KW - ASYMMETRIES

U2 - 10.1007/JHEP01(2026)048

DO - 10.1007/JHEP01(2026)048

M3 - Article

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VL - 2026

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

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Probing new physics through CP violation in <i>B</i><sub>(<i>s</i>)</sub> ? <i>V µ</i><SUP>+</SUP><i>µ</i><SUP>-</SUP> decays

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Keywords

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