Observables / $c$ hadron decays / Semi-leptonic tree-level decays

The tables below have been generated automatically from the observables currently implemented in flavio. The first column is the string name that must be used when calling functions such as flavio.sm_prediction. The last column lists the arguments the observable depends on (which can also be empty in case of a scalar observable).

$D\to P\ell\nu$

$D\to P\ell\nu$

$D^+\to K^0\ell^+\nu_\ell$

Name	Symbol	Description	Arguments
`<BR>(D+->Klnu)`	$\langle\text{BR}\rangle(D^+\to K^0\ell^+\nu_\ell)$	Binned branching ratio of $D^+\to K^0\ell^+\nu_\ell$	`q2min`, `q2max`
`BR(D+->Klnu)`	$\text{BR}(D^+\to K^0\ell^+\nu_\ell)$	Total branching ratio of $D^+\to K^0\ell^+\nu_\ell$
`dBR/dq2(D+->Klnu)`	$\frac{d\text{BR}}{dq^2}(D^+\to K^0\ell^+\nu_\ell)$	Differential branching ratio of $D^+\to K^0\ell^+\nu_\ell$	`q2`

$D^+\to K^0\mu^+\nu_\mu$

Name	Symbol	Description	Arguments
`<BR>(D+->Kmunu)`	$\langle\text{BR}\rangle(D^+\to K^0\mu^+\nu_\mu)$	Binned branching ratio of $D^+\to K^0\mu^+\nu_\mu$	`q2min`, `q2max`
`<Rmue>(D->Klnu)`	$\langle R_{\mu e} \rangle(D\to K\ell^+\nu)$	Ratio of partial branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$	`q2min`, `q2max`
`BR(D+->Kmunu)`	$\text{BR}(D^+\to K^0\mu^+\nu_\mu)$	Total branching ratio of $D^+\to K^0\mu^+\nu_\mu$
`Rmue(D->Klnu)`	$R_{\mu e}(D\to K\ell^+\nu)$	Ratio of total branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$
`dBR/dq2(D+->Kmunu)`	$\frac{d\text{BR}}{dq^2}(D^+\to K^0\mu^+\nu_\mu)$	Differential branching ratio of $D^+\to K^0\mu^+\nu_\mu$	`q2`

$D^+\to K^0e^+\nu_e$

Name	Symbol	Description	Arguments
`<BR>(D+->Kenu)`	$\langle\text{BR}\rangle(D^+\to K^0e^+\nu_e)$	Binned branching ratio of $D^+\to K^0e^+\nu_e$	`q2min`, `q2max`
`<Rmue>(D->Klnu)`	$\langle R_{\mu e} \rangle(D\to K\ell^+\nu)$	Ratio of partial branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$	`q2min`, `q2max`
`BR(D+->Kenu)`	$\text{BR}(D^+\to K^0e^+\nu_e)$	Total branching ratio of $D^+\to K^0e^+\nu_e$
`Rmue(D->Klnu)`	$R_{\mu e}(D\to K\ell^+\nu)$	Ratio of total branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$
`dBR/dq2(D+->Kenu)`	$\frac{d\text{BR}}{dq^2}(D^+\to K^0e^+\nu_e)$	Differential branching ratio of $D^+\to K^0e^+\nu_e$	`q2`

$D^+\to \pi^0\ell^+\nu_\ell$

Name	Symbol	Description	Arguments
`<BR>(D+->pilnu)`	$\langle\text{BR}\rangle(D^+\to \pi^0\ell^+\nu_\ell)$	Binned branching ratio of $D^+\to \pi^0\ell^+\nu_\ell$	`q2min`, `q2max`
`BR(D+->pilnu)`	$\text{BR}(D^+\to \pi^0\ell^+\nu_\ell)$	Total branching ratio of $D^+\to \pi^0\ell^+\nu_\ell$
`dBR/dq2(D+->pilnu)`	$\frac{d\text{BR}}{dq^2}(D^+\to \pi^0\ell^+\nu_\ell)$	Differential branching ratio of $D^+\to \pi^0\ell^+\nu_\ell$	`q2`

$D^+\to \pi^0\mu^+\nu_\mu$

Name	Symbol	Description	Arguments
`<BR>(D+->pimunu)`	$\langle\text{BR}\rangle(D^+\to \pi^0\mu^+\nu_\mu)$	Binned branching ratio of $D^+\to \pi^0\mu^+\nu_\mu$	`q2min`, `q2max`
`<Rmue>(D->pilnu)`	$\langle R_{\mu e} \rangle(D\to \pi \ell^+\nu)$	Ratio of partial branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$	`q2min`, `q2max`
`BR(D+->pimunu)`	$\text{BR}(D^+\to \pi^0\mu^+\nu_\mu)$	Total branching ratio of $D^+\to \pi^0\mu^+\nu_\mu$
`Rmue(D->pilnu)`	$R_{\mu e}(D\to \pi \ell^+\nu)$	Ratio of total branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$
`dBR/dq2(D+->pimunu)`	$\frac{d\text{BR}}{dq^2}(D^+\to \pi^0\mu^+\nu_\mu)$	Differential branching ratio of $D^+\to \pi^0\mu^+\nu_\mu$	`q2`

$D^+\to \pi^0e^+\nu_e$

Name	Symbol	Description	Arguments
`<BR>(D+->pienu)`	$\langle\text{BR}\rangle(D^+\to \pi^0e^+\nu_e)$	Binned branching ratio of $D^+\to \pi^0e^+\nu_e$	`q2min`, `q2max`
`<Rmue>(D->pilnu)`	$\langle R_{\mu e} \rangle(D\to \pi \ell^+\nu)$	Ratio of partial branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$	`q2min`, `q2max`
`BR(D+->pienu)`	$\text{BR}(D^+\to \pi^0e^+\nu_e)$	Total branching ratio of $D^+\to \pi^0e^+\nu_e$
`Rmue(D->pilnu)`	$R_{\mu e}(D\to \pi \ell^+\nu)$	Ratio of total branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$
`dBR/dq2(D+->pienu)`	$\frac{d\text{BR}}{dq^2}(D^+\to \pi^0e^+\nu_e)$	Differential branching ratio of $D^+\to \pi^0e^+\nu_e$	`q2`

$D^0\to K^- \ell^+\nu_\ell$

Name	Symbol	Description	Arguments
`<BR>(D0->Klnu)`	$\langle\text{BR}\rangle(D^0\to K^- \ell^+\nu_\ell)$	Binned branching ratio of $D^0\to K^- \ell^+\nu_\ell$	`q2min`, `q2max`
`BR(D0->Klnu)`	$\text{BR}(D^0\to K^- \ell^+\nu_\ell)$	Total branching ratio of $D^0\to K^- \ell^+\nu_\ell$
`dBR/dq2(D0->Klnu)`	$\frac{d\text{BR}}{dq^2}(D^0\to K^- \ell^+\nu_\ell)$	Differential branching ratio of $D^0\to K^- \ell^+\nu_\ell$	`q2`

$D^0\to K^- \mu^+\nu_\mu$

Name	Symbol	Description	Arguments
`<BR>(D0->Kmunu)`	$\langle\text{BR}\rangle(D^0\to K^- \mu^+\nu_\mu)$	Binned branching ratio of $D^0\to K^- \mu^+\nu_\mu$	`q2min`, `q2max`
`<Rmue>(D->Klnu)`	$\langle R_{\mu e} \rangle(D\to K\ell^+\nu)$	Ratio of partial branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$	`q2min`, `q2max`
`BR(D0->Kmunu)`	$\text{BR}(D^0\to K^- \mu^+\nu_\mu)$	Total branching ratio of $D^0\to K^- \mu^+\nu_\mu$
`Rmue(D->Klnu)`	$R_{\mu e}(D\to K\ell^+\nu)$	Ratio of total branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$
`dBR/dq2(D0->Kmunu)`	$\frac{d\text{BR}}{dq^2}(D^0\to K^- \mu^+\nu_\mu)$	Differential branching ratio of $D^0\to K^- \mu^+\nu_\mu$	`q2`

$D^0\to K^- e^+\nu_e$

Name	Symbol	Description	Arguments
`<BR>(D0->Kenu)`	$\langle\text{BR}\rangle(D^0\to K^- e^+\nu_e)$	Binned branching ratio of $D^0\to K^- e^+\nu_e$	`q2min`, `q2max`
`<Rmue>(D->Klnu)`	$\langle R_{\mu e} \rangle(D\to K\ell^+\nu)$	Ratio of partial branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$	`q2min`, `q2max`
`BR(D0->Kenu)`	$\text{BR}(D^0\to K^- e^+\nu_e)$	Total branching ratio of $D^0\to K^- e^+\nu_e$
`Rmue(D->Klnu)`	$R_{\mu e}(D\to K\ell^+\nu)$	Ratio of total branching ratios of $D\to K\mu^+ \nu_\mu$ and $D\to Ke^+ \nu_e$
`dBR/dq2(D0->Kenu)`	$\frac{d\text{BR}}{dq^2}(D^0\to K^- e^+\nu_e)$	Differential branching ratio of $D^0\to K^- e^+\nu_e$	`q2`

$D^0\to \pi^- \ell^+\nu_\ell$

Name	Symbol	Description	Arguments
`<BR>(D0->pilnu)`	$\langle\text{BR}\rangle(D^0\to \pi^- \ell^+\nu_\ell)$	Binned branching ratio of $D^0\to \pi^- \ell^+\nu_\ell$	`q2min`, `q2max`
`BR(D0->pilnu)`	$\text{BR}(D^0\to \pi^- \ell^+\nu_\ell)$	Total branching ratio of $D^0\to \pi^- \ell^+\nu_\ell$
`dBR/dq2(D0->pilnu)`	$\frac{d\text{BR}}{dq^2}(D^0\to \pi^- \ell^+\nu_\ell)$	Differential branching ratio of $D^0\to \pi^- \ell^+\nu_\ell$	`q2`

$D^0\to \pi^- \mu^+\nu_\mu$

Name	Symbol	Description	Arguments
`<BR>(D0->pimunu)`	$\langle\text{BR}\rangle(D^0\to \pi^- \mu^+\nu_\mu)$	Binned branching ratio of $D^0\to \pi^- \mu^+\nu_\mu$	`q2min`, `q2max`
`<Rmue>(D->pilnu)`	$\langle R_{\mu e} \rangle(D\to \pi \ell^+\nu)$	Ratio of partial branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$	`q2min`, `q2max`
`BR(D0->pimunu)`	$\text{BR}(D^0\to \pi^- \mu^+\nu_\mu)$	Total branching ratio of $D^0\to \pi^- \mu^+\nu_\mu$
`Rmue(D->pilnu)`	$R_{\mu e}(D\to \pi \ell^+\nu)$	Ratio of total branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$
`dBR/dq2(D0->pimunu)`	$\frac{d\text{BR}}{dq^2}(D^0\to \pi^- \mu^+\nu_\mu)$	Differential branching ratio of $D^0\to \pi^- \mu^+\nu_\mu$	`q2`

$D^0\to \pi^- e^+\nu_e$

Name	Symbol	Description	Arguments
`<BR>(D0->pienu)`	$\langle\text{BR}\rangle(D^0\to \pi^- e^+\nu_e)$	Binned branching ratio of $D^0\to \pi^- e^+\nu_e$	`q2min`, `q2max`
`<Rmue>(D->pilnu)`	$\langle R_{\mu e} \rangle(D\to \pi \ell^+\nu)$	Ratio of partial branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$	`q2min`, `q2max`
`BR(D0->pienu)`	$\text{BR}(D^0\to \pi^- e^+\nu_e)$	Total branching ratio of $D^0\to \pi^- e^+\nu_e$
`Rmue(D->pilnu)`	$R_{\mu e}(D\to \pi \ell^+\nu)$	Ratio of total branching ratios of $D\to \pi \mu^+ \nu_\mu$ and $D\to \pi e^+ \nu_e$
`dBR/dq2(D0->pienu)`	$\frac{d\text{BR}}{dq^2}(D^0\to \pi^- e^+\nu_e)$	Differential branching ratio of $D^0\to \pi^- e^+\nu_e$	`q2`