diff --git a/PWGHF/D2H/DataModel/ReducedDataModel.h b/PWGHF/D2H/DataModel/ReducedDataModel.h
index 82428a7ea1d..52f6c8e513b 100644
--- a/PWGHF/D2H/DataModel/ReducedDataModel.h
+++ b/PWGHF/D2H/DataModel/ReducedDataModel.h
@@ -138,7 +138,7 @@ DECLARE_SOA_COLUMN(HasTOF, hasTOF, bool); //! Flag to check
DECLARE_SOA_COLUMN(NumItsCls, numItsCls, int); //! Number of clusters in ITS
DECLARE_SOA_COLUMN(NumTpcCrossedRows, numTpcCrossedRows, int); //! Number of TPC crossed rows
// dynamic columns
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPi, tpcTofNSigmaPi, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPi, tpcTofNSigmaPi, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaPi, float tofNSigmaPi) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaPi, tofNSigmaPi); });
} // namespace hf_track_index_reduced
@@ -201,17 +201,17 @@ DECLARE_SOA_COLUMN(TOFNSigmaKaProng0, tofNSigmaKaProng0, float);
DECLARE_SOA_COLUMN(TOFNSigmaKaProng1, tofNSigmaKaProng1, float); //! NsigmaTOFKa for prong1
DECLARE_SOA_COLUMN(TOFNSigmaKaProng2, tofNSigmaKaProng2, float); //! NsigmaTOFKa for prong2
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPiProng0, tpcTofNSigmaPiProng0, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPiProng0, tpcTofNSigmaPiProng0, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaPi, float tofNSigmaPi) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaPi, tofNSigmaPi); });
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPiProng1, tpcTofNSigmaPiProng1, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPiProng1, tpcTofNSigmaPiProng1, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaPi, float tofNSigmaPi) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaPi, tofNSigmaPi); });
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPiProng2, tpcTofNSigmaPiProng2, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaPiProng2, tpcTofNSigmaPiProng2, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaPi, float tofNSigmaPi) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaPi, tofNSigmaPi); });
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaKaProng0, tpcTofNSigmaKaProng0, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaKaProng0, tpcTofNSigmaKaProng0, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaKa, float tofNSigmaKa) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaKa, tofNSigmaKa); });
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaKaProng1, tpcTofNSigmaKaProng1, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaKaProng1, tpcTofNSigmaKaProng1, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaKa, float tofNSigmaKa) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaKa, tofNSigmaKa); });
-DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaKaProng2, tpcTofNSigmaKaProng2, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(TPCTOFNSigmaKaProng2, tpcTofNSigmaKaProng2, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaKa, float tofNSigmaKa) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaKa, tofNSigmaKa); });
} // namespace hf_charm_cand_reduced
@@ -699,17 +699,17 @@ DECLARE_SOA_COLUMN(HasTof, hasTof, bool); //! flag for pres
DECLARE_SOA_COLUMN(NumItsCls, numItsCls, int); //! Number of clusters in ITS
DECLARE_SOA_COLUMN(NumTpcCrossedRows, numTpcCrossedRows, int); //! Number of TPC crossed rows
// dynamic columns
-DECLARE_SOA_DYNAMIC_COLUMN(Pt, pt, //! transverse momentum
+DECLARE_SOA_DYNAMIC_COLUMN(Pt, pt, //! transverse momentum
[](float px, float py) -> float { return RecoDecay::pt(px, py); });
DECLARE_SOA_DYNAMIC_COLUMN(Phi, phi, //! azimuthal angle
[](float px, float py) -> float { return RecoDecay::phi(px, py); });
DECLARE_SOA_DYNAMIC_COLUMN(Eta, eta, //! pseudorapidity
[](float px, float py, float pz) -> float { return RecoDecay::eta(std::array{px, py, pz}); });
-DECLARE_SOA_DYNAMIC_COLUMN(NSigmaTpcTofPi, nSigmaTpcTofPi, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(NSigmaTpcTofPi, nSigmaTpcTofPi, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaPi, float tofNSigmaPi) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaPi, tofNSigmaPi); });
-DECLARE_SOA_DYNAMIC_COLUMN(NSigmaTpcTofKa, nSigmaTpcTofKa, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(NSigmaTpcTofKa, nSigmaTpcTofKa, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaKa, float tofNSigmaKa) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaKa, tofNSigmaKa); });
-DECLARE_SOA_DYNAMIC_COLUMN(NSigmaTpcTofPr, nSigmaTpcTofPr, //! Combination of NsigmaTPC and NsigmaTOF
+DECLARE_SOA_DYNAMIC_COLUMN(NSigmaTpcTofPr, nSigmaTpcTofPr, //! Combination of NsigmaTPC and NsigmaTOF
[](float tpcNSigmaPr, float tofNSigmaPr) -> float { return pid_tpc_tof_utils::combineNSigma(tpcNSigmaPr, tofNSigmaPr); });
} // namespace hf_reso_track