@article{Campbell:2024hjq,author={Campbell, John and Neumann, Tobias and Vita, Gherardo},title={{Projection-to-Born-improved subtractions at NNLO}},eprint={2408.05265},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={CERN-TH-2024-102, FERMILAB-PUB-24-0402-T},doi={10.1007/JHEP05(2025)172},journal={JHEP},volume={05},pages={172},year={2025},}
2023
Third order QCD predictions for fiducial W-boson production
@article{Campbell:2023lcy,author={Campbell, John and Neumann, Tobias},title={{Third order QCD predictions for fiducial W-boson production}},eprint={2308.15382},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-23-463-T},doi={10.1007/JHEP11(2023)127},journal={JHEP},volume={11},pages={127},year={2023},}
Jet-veto resummation at N³LLₚ+NNLO in boson production processes
John M.
Campbell, R. Keith
Ellis, Tobias
Neumann, and Satyajit
Seth
@article{Campbell:2023cha,author={Campbell, John M. and Ellis, R. Keith and Neumann, Tobias and Seth, Satyajit},title={{Jet-veto resummation at N³LLₚ+NNLO in boson production processes}},eprint={2301.11768},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-23-028-T, IPPP/23/05},doi={10.1007/JHEP04(2023)106},journal={JHEP},volume={04},pages={106},year={2023},}
Transverse momentum resummation at N³LL+NNLO for diboson processes
John M.
Campbell, R. Keith
Ellis, Tobias
Neumann, and Satyajit
Seth
@article{Campbell:2022uzw,author={Campbell, John M. and Ellis, R. Keith and Neumann, Tobias and Seth, Satyajit},title={{Transverse momentum resummation at N³LL+NNLO for diboson processes}},eprint={2210.10724},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-22-762-T,IPPP/22/72},doi={10.1007/JHEP03(2023)080},journal={JHEP},volume={03},pages={080},year={2023},}
Fiducial Drell-Yan production at the LHC improved by transverse-momentum resummation at N⁴LLₚ+N³LO
@article{Neumann:2022lft,author={Neumann, Tobias and Campbell, John},title={Fiducial Drell-Yan production at the LHC improved by transverse-momentum resummation at N⁴LLₚ+N³LO},eprint={2207.07056},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-22-528-T},doi={10.1103/PhysRevD.107.L011506},journal={Phys. Rev. D},volume={107},number={1},pages={L011506},year={2023},}
2022
Computational Challenges for Multi-loop Collider Phenomenology: A Snowmass 2021 White Paper
@article{FebresCordero:2022psq,author={Febres Cordero, Fernando and {von Manteuffel}, Andreas and Neumann, Tobias},title={{Computational Challenges for Multi-loop Collider Phenomenology: A Snowmass 2021 White Paper}},eprint={2204.04200},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={MSUHEP-22-016},doi={10.1007/s41781-022-00088-0},journal={Comput. Softw. Big Sci.},volume={6},number={1},pages={14},year={2022},}
2021
Testing parton distribution functions with t-channel single-top-quark production
@article{Campbell:2021qgd,author={Campbell, John and Neumann, Tobias and Sullivan, Zack},title={{Testing parton distribution functions with t-channel single-top-quark production}},eprint={2109.10448},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-21-456-T, IIT-CAPP-21-01},doi={10.1103/PhysRevD.104.094042},journal={Phys. Rev. D},volume={104},number={9},pages={094042},year={2021},}
@article{Neumann:2021zkb,author={Neumann, Tobias},title={{The diphoton qT spectrum at N³LL'+NNLO}},eprint={2107.12478},archiveprefix={arXiv},primaryclass={hep-ph},doi={10.1140/epjc/s10052-021-09687-4},journal={Eur. Phys. J. C},volume={81},number={10},pages={905},year={2021},}
Single-top-quark production in the t-channel at NNLO
@article{Campbell:2020fhf,author={Campbell, John and Neumann, Tobias and Sullivan, Zack},title={{Single-top-quark production in the $t$-channel at NNLO}},eprint={2012.01574},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-20-608-T, IIT-CAPP-20-05},doi={10.1007/JHEP02(2021)040},journal={JHEP},volume={02},pages={040},year={2021},}
Fiducial qT resummation of color-singlet processes at N³LL+NNLO
@article{Becher:2020ugp,author={Becher, Thomas and Neumann, Tobias},title={{Fiducial qT resummation of color-singlet processes at N³LL+NNLO}},eprint={2009.11437},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-20-272-T, IIT-CAPP-20-02},doi={10.1007/JHEP03(2021)199},journal={JHEP},volume={03},pages={199},year={2021},}
@article{Harlander:2020duo,author={Harlander, Robert V. and Lange, Fabian and Neumann, Tobias},title={{Hadronic vacuum polarization using gradient flow}},eprint={2007.01057},archiveprefix={arXiv},primaryclass={hep-lat},reportnumber={FERMILAB-PUB-20-249-T, IIT-CAPP-20-01, TTK-20-20},doi={10.1007/JHEP08(2020)109},journal={JHEP},volume={08},pages={109},year={2020},}
@article{Campbell:2019dru,author={Campbell, John and Neumann, Tobias},title={{Precision Phenomenology with MCFM}},eprint={1909.09117},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-19-477-T, IIT-CAPP-19-03},doi={10.1007/JHEP12(2019)034},journal={JHEP},volume={12},pages={034},year={2019},}
Results and techniques for higher order calculations within the gradient-flow formalism
Johannes
Artz, Robert V.
Harlander, Fabian
Lange, Tobias
Neumann, and Mario
Prausa
@article{Artz:2019bpr,author={Artz, Johannes and Harlander, Robert V. and Lange, Fabian and Neumann, Tobias and Prausa, Mario},title={{Results and techniques for higher order calculations within the gradient-flow formalism}},eprint={1905.00882},archiveprefix={arXiv},primaryclass={hep-lat},reportnumber={FERMILAB-PUB-19-151-T, FR-PHENO-2019-003, IIT-CAPP-19-02, TTK-19-15},doi={10.1007/JHEP06(2019)121},journal={JHEP},volume={06},pages={121},year={2019},}
Off-Shell Single-Top-Quark Production in the Standard Model Effective Field Theory
@article{Neumann:2019kvk,author={Neumann, Tobias and Sullivan, Zack Edward},title={{Off-Shell Single-Top-Quark Production in the Standard Model Effective Field Theory}},eprint={1903.11023},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-19-119-T, IIT-CAPP-19-01},doi={10.1007/JHEP06(2019)022},journal={JHEP},volume={06},pages={022},year={2019},}
2018
NLO Higgs+jet production at large transverse momenta including top quark mass effects
@article{Neumann:2018bsx,author={Neumann, Tobias},title={{NLO Higgs+jet production at large transverse momenta including top quark mass effects}},eprint={1802.02981},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={IIT-CAPP-18-01, FERMILAB-PUB-18-034-T},doi={10.1088/2399-6528/aadfbf},journal={J. Phys. Comm.},volume={2},number={9},pages={095017},year={2018},}
2017
$Zγ$ Production at NNLO Including Anomalous Couplings
@article{Campbell:2017aul,author={Campbell, John M. and Neumann, Tobias and Williams, Ciaran},title={{$$Z\gamma$$ Production at NNLO Including Anomalous Couplings}},eprint={1708.02925},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-PUB-17-303-T},doi={10.1007/JHEP11(2017)150},journal={JHEP},volume={11},pages={150},year={2017},}
@article{Neumann:2016dny,author={Neumann, Tobias and Williams, Ciaran},title={{The Higgs boson at high $p_T$}},eprint={1609.00367},archiveprefix={arXiv},primaryclass={hep-ph},doi={10.1103/PhysRevD.95.014004},journal={Phys. Rev. D},volume={95},number={1},pages={014004},year={2017},}
@article{Harlander:2016vzb,author={Harlander, Robert V. and Neumann, Tobias},title={{The perturbative QCD gradient flow to three loops}},eprint={1606.03756},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={TTK-16-19},doi={10.1007/JHEP06(2016)161},journal={JHEP},volume={06},pages={161},year={2016},}
2014
Finite top-mass effects in gluon-induced Higgs production with a jet-veto at NNLO
@article{Neumann:2014nha,author={Neumann, Tobias and Wiesemann, Marius},title={{Finite top-mass effects in gluon-induced Higgs production with a jet-veto at NNLO}},eprint={1408.6836},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={ZU-TH-30-14, WUB-14-09, LPN14-107},doi={10.1007/JHEP11(2014)150},journal={JHEP},volume={11},pages={150},year={2014},}
@article{Harlander:2013oja,author={Harlander, Robert V. and Neumann, Tobias},title={{Probing the nature of the Higgs-gluon coupling}},eprint={1308.2225},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={WUB-13-08},doi={10.1103/PhysRevD.88.074015},journal={Phys. Rev. D},volume={88},pages={074015},year={2013},}
2012
Top-mass effects in differential Higgs production through gluon fusion at order $α^4_s$
@article{Harlander:2012hf,author={Harlander, Robert V. and Neumann, Tobias and Ozeren, Kemal J. and Wiesemann, Marius},title={{Top-mass effects in differential Higgs production through gluon fusion at order $$\alpha^4_s$$}},eprint={1206.0157},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={CERN-PH-TH-2012-146, LPN12-053, UCLA-12-TEP-101, WUB-12-13},doi={10.1007/JHEP08(2012)139},journal={JHEP},volume={08},pages={139},year={2012},}
Group reports with minor contributions
2024
Event generators for high-energy physics experiments
@techreport{Schwienhorst:2022yqu,author={Agashe, K. and others},editor={Schwienhorst, Reinhard and Wackeroth, Doreen},title={{Report of the Topical Group on Top quark physics and heavy flavor production for Snowmass 2021}},eprint={2209.11267},archiveprefix={arXiv},primaryclass={hep-ph},month=sep,year={2022},}
TF07 Snowmass Report: Theory of Collider Phenomena
@techreport{Maltoni:2022bqs,author={Maltoni, F. and others},title={{TF07 Snowmass Report: Theory of Collider Phenomena}},eprint={2210.02591},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={FERMILAB-FN-1203-QIS},month=oct,year={2022},}
2021
Challenges in Monte Carlo Event Generator Software for High-Luminosity LHC
@techreport{HSFPhysicsEventGeneratorWG:2020gxw,author={Amoroso, Simone and others},editor={Valassi, Andrea and Yazgan, Efe and McFayden, Josh},collaboration={HSF Physics Event Generator WG},title={{Challenges in Monte Carlo Event Generator Software for High-Luminosity LHC}},eprint={2004.13687},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={CERN-LPCC-2020-002, FERMILAB-PUB-20-183-SCD-T, MCNET-20-15},doi={10.1007/s41781-021-00055-1},journal={Comput. Softw. Big Sci.},volume={5},number={1},pages={12},year={2021},}
2020
HL-LHC Computing Review: Common Tools and Community Software
@techreport{HEPSoftwareFoundation:2020daq,author={Aarrestad, Thea and others},editor={Canal, Philippe and others},collaboration={HEP Software Foundation},title={{HL-LHC Computing Review: Common Tools and Community Software}},booktitle={{Snowmass 2021}},eprint={2008.13636},archiveprefix={arXiv},primaryclass={physics.comp-ph},reportnumber={HSF-DOC-2020-01},doi={10.5281/zenodo.4009114},month=aug,year={2020},}
@inproceedings{Neumann:2024uik,author={Neumann, Tobias},title={{Third order QCD predictions for $W$ and $Z$-boson production}},doi={10.22323/1.467.0044},journal={PoS},volume={LL2024},pages={044},year={2024},}
2021
Tools for perturbative high-precision calculations
@inproceedings{Neumann:2018bwv,author={Neumann, Tobias},title={{Recent Developments in Gluon Fusion Higgs Calculations}},booktitle={{13th Conference on the Intersections of Particle and Nuclear Physics}},volume={CIPANP13},journal={n/a},eprint={1810.01800},archiveprefix={arXiv},primaryclass={hep-ph},reportnumber={CIPANP2018-Neumann, IIT-CAPP-18-03, FERMILAB-CONF-18-539-T},month=oct,year={2018},}
2016
The Higgs boson at high pT: Finite top-mass improved results
@inproceedings{Neumann:2016yjk,author={Neumann, Tobias and Williams, Ciaran},title={{The Higgs boson at high pT: Finite top-mass improved results}},doi={10.22323/1.260.0027},journal={PoS},volume={LL2016},pages={027},year={2016},}
Theses
2015
Perturbative calculations for Standard Model precision physics: Higgs production and Yang-Mills gradient flow
@phdthesis{Neumann:2015ylq,author={Neumann, Tobias},title={{Perturbative calculations for Standard Model precision physics: Higgs production and Yang-Mills gradient flow}},school={Wuppertal U.},year={2015},thesis={true}}
