<?xml version="1.0"?>
<lilithinput>
<!-- signal strengths in theory space, like mu(gg -> H -> ZZ), as input -->
<signalstrengths part="h">
<mass>125</mass>
<!-- optionnal:
if not given, Higgs mass of 125 GeV is assumed
valid Higgs masses are in the [123,128] GeV range
-->
<!--
"VV" decay can be splitted into "WW" and "ZZ" in all what follows
-->
<mu prod="ggH" decay="gammagamma">1.0</mu>
<mu prod="ggH" decay="VV">1.0</mu>
<mu prod="ggH" decay="bb">1.0</mu>
<mu prod="ggH" decay="tautau">1.0</mu>
<mu prod="ggH" decay="mumu">1.0</mu>
<!--
if necessary, possible to specify "VBF", "WH" and "ZH" production
instead of a common "VVH"
-->
<mu prod="VVH" decay="gammagamma">1.0</mu>
<mu prod="VVH" decay="VV">1.0</mu>
<mu prod="VVH" decay="bb">1.0</mu>
<mu prod="VVH" decay="tautau">1.0</mu>
<!--
ttH is optionnal: if not provided, SM-like ttH is assumed
-->
<mu prod="ttH" decay="gammagamma">1.0</mu>
<mu prod="ttH" decay="VV">1.0</mu>
<mu prod="ttH" decay="bb">1.0</mu>
<mu prod="ttH" decay="tautau">1.0</mu>
<!--
the following is optionnal: if not given, no decay into invisible particles
used for the ZH/VBF->ll+invisible constraint
corresponds to (sigma(ZH)/sigma(ZH_SM))*BR(H->invisible)
and similarly for VBF
-->
<redxsBR prod="ZH" decay="invisible">0.0</redxsBR>
<redxsBR prod="VBF" decay="invisible">0.0</redxsBR>
</signalstrengths>
<signalstrengths part="H">
<mu prod="ggH" decay="gammagamma">0.1</mu>
<mu prod="ggH" decay="VV">0.1</mu>
<mu prod="ggH" decay="bb">0.1</mu>
<mu prod="ggH" decay="tautau">0.1</mu>
<mu prod="VVH" decay="gammagamma">0.0</mu>
<mu prod="VVH" decay="VV">0.0</mu>
<mu prod="VVH" decay="bb">0.0</mu>
<mu prod="VVH" decay="tautau">0.0</mu>
<mu prod="ttH" decay="gammagamma">0.0</mu>
<mu prod="ttH" decay="VV">0.0</mu>
<mu prod="ttH" decay="bb">0.0</mu>
<mu prod="ttH" decay="tautau">0.0</mu>
</signalstrengths>
</lilithinput>
