{"@context":"http://schema.org","@id":"https://doi.org/10.17182/hepdata.167419.v1","@reverse":{"isBasedOn":[{"@type":"ScholarlyArticle","identifier":{"@type":"PropertyValue","propertyID":"URL","value":"https://inspirehep.net/literature/3133159"}}]},"@type":"Dataset","additionalType":"Collection","author":{"@type":"Organization","name":"CMS Collaboration"},"creator":{"@type":"Organization","name":"CMS Collaboration"},"datePublished":"2026","description":"A search for Higgs boson (\\PH) production at high transverse momentum ($p_\\mathrm{T}$) in the WW decay channel is presented. The analysis uses proton-proton collisions at $\\sqrt{s}$ = 13 TeV recorded by the CMS experiment in 2016$-$2018, corresponding to an integrated luminosity of 138 fb$^{-1}$. The visible decay products of the Higgs boson are reconstructed as a single large-radius jet with one isolated lepton or none (1$\\ell$ and 0$\\ell$, respectively; $\\ell$ = e, $\u03bc$). The \\PH-candidate jets are identified using an advanced transformer-based algorithm and are calibrated with the Lund jet plane reweighting technique. The 1$\\ell$ channel is further split into gluon fusion, vector boson fusion, and associated production with hadronically decaying vector boson categories, while the 0$\\ell$ channel considers all production processes inclusively. The measured cross section times the H $\\to$ WW branching fraction relative to the standard model expectation is $\u03bc$ = $-$0.19$^{+0.48}_{-0.46}$, indicating no evidence of a signal above the background. This measurement represents the first dedicated study of highly Lorentz-boosted H $\\to$ WW decays, complementing earlier searches for high-$p_\\mathrm{T}$ Higgs boson in other decay channels.","hasPart":[{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t1","@type":"Dataset","description":"Post-fit soft-drop mass ($m_{SD}$) distribution for the predicted background, observed data, and signal for SR1a in the 0$\\ell$ channel. SR1a...","name":"Fig.5a, Post-fit $m_{SD}$ in SR1a 0$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t2","@type":"Dataset","description":"Post-fit soft-drop mass ($m_{SD}$) distribution for the predicted background, observed data, and signal for SR2a in the 0$\\ell$ channel. SR2a...","name":"Fig.5b, Post-fit $m_{SD}$ in SR2a 0$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t3","@type":"Dataset","description":"Post-fit soft-drop mass ($m_{SD}$) distribution for the predicted background, observed data, and signal for SR1b in the 0$\\ell$ channel. SR1b...","name":"Fig.5c, Post-fit $m_{SD}$ in SR1b 0$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t4","@type":"Dataset","description":"Post-fit soft-drop mass ($m_{SD}$) distribution for the predicted background, observed data, and signal for SR2b in the 0$\\ell$ channel. SR2b...","name":"Fig.5d, Post-fit $m_{SD}$ in SR2b 0$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t5","@type":"Dataset","description":"Post-fit reconstructed Higgs mass ($m^*_j$) distribution for the predicted background and observed data for the Top control region in the...","name":"Fig.6a, Post-fit $m^*_j$ in Top CR 1$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t6","@type":"Dataset","description":"Post-fit reconstructed Higgs mass ($m^*_j$) distribution for the predicted background and observed data for the W+jets control region in the...","name":"Fig.6b, Post-fit $m^*_j$ in W+jets CR 1$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t7","@type":"Dataset","description":"Post-fit reconstructed Higgs mass ($m^*_j$) distribution for the predicted background, observed data, and signal for the VBF signal region in...","name":"Fig.6c, Post-fit $m^*_j$ in VBF SR 1$\\ell$ channel"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t8","@type":"Dataset","description":"Post-fit reconstructed Higgs mass ($m^*_j$) distribution for the predicted background, observed data, and signal for the ggF signal region with...","name":"Fig.6d, Post-fit $m^*_j$ ggF $p_T$[250,350) 1$\\ell$"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t9","@type":"Dataset","description":"Post-fit reconstructed Higgs mass ($m^*_j$) distribution for the predicted background, observed data, and signal for the ggF signal region with...","name":"Fig.6e, Post-fit $m^*_j$ ggF $p_T$[350,500) 1$\\ell$"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t10","@type":"Dataset","description":"Post-fit reconstructed Higgs mass ($m^*_j$) distribution for the predicted background, observed data, and signal for the ggF signal region with...","name":"Fig.6f, Post-fit $m^*_j$ ggF $p_T$>500 GeV 1$\\ell$"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t11","@type":"Dataset","description":"Post-fit V candidate jet soft-drop mass ($m^V_j$) distribution for the predicted background, observed data, and signal for the VH signal...","name":"Fig.7a, Post-fit $m^V_j$ in VH SR"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t12","@type":"Dataset","description":"Post-fit V candidate jet soft-drop mass ($m^V_j$) distribution for the predicted background and observed data for the VH Top control...","name":"Fig.7b, Post-fit $m^V_j$ in VH Top CR"},{"@id":"https://doi.org/10.17182/hepdata.167419.v1/t13","@type":"Dataset","description":"Unfolded measurement of the STXS cross sections in generator-level bins for three bins of Higgs boson $p_T$ and one bin...","name":"Fig.10, STXS cross sections in 1$\\ell$ channel"}],"identifier":[{"@type":"PropertyValue","propertyID":"HEPDataRecord","value":"https://www.hepdata.net/record/ins3133159?version=1"},{"@type":"PropertyValue","propertyID":"HEPDataRecordAlt","value":"https://www.hepdata.net/record/167419"}],"inLanguage":"en","name":"Search for Higgs boson production at high transverse momentum in the WW decay channel in proton-proton collisions at $\\sqrt{s}$ = 13 TeV","provider":{"@type":"Organization","name":"HEPData"},"publisher":{"@type":"Organization","name":"HEPData"},"url":"https://www.hepdata.net/record/ins3133159?version=1","version":1}
