What question did this study set out to answer?

The study aims to analyze the transition form factors for the decay Lambda_b to Lambda using perturbative QCD and higher-twist contributions.

February 5, 2026Open Access

The ₁ transition form factors in perturbative QCD approach

Key Points

The study aims to analyze the transition form factors for the decay Lambda_b to Lambda using perturbative QCD and higher-twist contributions.
Systematic analysis using perturbative QCD (PQCD) approach.
Incorporation of higher-twist light-cone distribution amplitudes (LCDAs).
Combination of PQCD results at low q² with lattice QCD predictions at high q² for unified fits.
z-series expansion fits to describe form factors across the kinematic range.
Baryon higher-twist LCDAs contribute significantly to the form factors.
Unified description of form factors is obtained over the full physical kinematic range.
Predictions include differential branching fraction and longitudinal polarization for the rare decay Lambda_b to Lambda mu+ mu-.

Abstract

Abstract We perform a systematic analysis of the b Λ b → Λ transition form factors using the perturbative QCD (PQCD) approach, taking into account contributions from higher-twist light-cone distribution amplitudes (LCDAs). Using inputs from lattice QCD, we show that the baryon higher-twist LCDAs give numerically dominant contributions to the form factors. By combining our PQCD results at low- q² q 2 region with lattice QCD predictions at high q², q 2, we carry out z -series expansion fits to obtain a unified description of the form factors over the full physical kinematic range. We also provide predictions for physical observables in the rare decay b ^+ ^-, Λ b → Λ μ + μ -, such as the differential branching fraction, the longitudinal polarization fraction of the dimuon system, and the forward–backward asymmetries.

The ₁ transition form factors in perturbative QCD approach

Key Points

Abstract

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