A Living Review of Articles on the LHeC

The Large Hadron electron Collider (LHeC) is a propsed electron-proton and electron-ion collider experiment at CERN to be operated in the 2030s. In this living review, relevant papers on the accelerator ('the machine'), the detector, experimental techniques, and formal reports are collected, and of course all relevant papers on physics. The collection also covers physics and technical articles on the FCC-eh and other future high-energy electron-hadron collider experiments.

The purpose of this project is to collect all references that are relevant for the LHeC. It will then serve as useful knowledge base for interested people. A small number of categories is chosen to sort the papers. In some cases, it may be possible that an article is listed in multiple categories.

This review is hosted on github.com/LHeC/LHeC-LivingReview and visible also on lhec.github.io/LHeC-LivingReview

The idea of such a living review is inherited from the Inter-Experimental LHC Machine Learning Working Group's HEPML-LivingReview Public

Conceptual Design Reports

LHeC Collaboration and FCC-he Study Group, P. Agostini, et al., "The Large Hadron–Electron Collider at the HL-LHC", J.Phys.G 48 (2021) 11, 110501, [InspireHEP] [DOI] [arXiv:2007.14491].
LHeC Study Group, J.L. Abelleira Fernandez, et al., "A Large Hadron Electron Collider at CERN: Report on the Physics and Design Concepts for Machine and Detector", J.Phys.G 39 (2012), 075001, [InspireHEP] [DOI] [arXiv:1206.2913].
FCC Physics Opportunities : Future Circular Collider Conceptual Design Report Volume 1 [DOI]
FCC-hh: The Hadron Collider : Future Circular Collider Conceptual Design Report Volume 3 [DOI]
PERLE. Powerful energy recovery linac for experiments. Conceptual design report [DOI]

Reports with Significant Relevance for LHeC (FCC-eh, LEPxLHC)

Important Reports and Reviews on Related Subjects

O. Bruening, et al., "The Large Hadron Electron Collider", Mod.Phys.Lett.A 28 (2013) 16, 1330011, [InspireHEP] [DOI] [arXiv:1305.2090].
LHeC Study Group, J.L. Abelleira Fernandez, et al., "On the Relation of the LHeC and the LHC", [InspireHEP] [arXiv:1211.5102].
J.L. Abelleira Fernandez, et al., "A Large Hadron Electron Collider at CERN", [InspireHEP] [arXiv:1211.4831].
The Development of Energy-Recovery Linacs [InspireHEP]
K.D. J. André, et al., "An experiment for electron-hadron scattering at the LHC", Eur.Phys.J.C 82 (2022) 1, 40, [InspireHEP] [DOI] [arXiv:2201.02436].
LHeC and PERLE Collaborations, O. Brüning, et al., "Exploring the energy frontier with deep inelastic scattering at the LHC", J.Phys.G 46 (2019) 12, 123001, [InspireHEP] [DOI].
PERLE Collaborationand LHeC Study Group and FCC-eh Study Group, G. Arduini, et al., "Energy frontier DIS at CERN: the LHeC and the FCC-eh, PERLE", PoS DIS2018 (2018), 183, [InspireHEP] [DOI].
F. Zimmermann, et al., "The LHeC as a Higgs Boson Factory", [InspireHEP].
O.S. Brüning, et al., "The LHeC Project Development Beyond 2012", Conf.Proc.C 1205201 (2012), 1999-2001, [InspireHEP].
F. Zimmermann, et al., "The Large Hadron-Electron Collider (LHeC) at the LHC", [InspireHEP].
J.B. Dainton, et al., "Deep inelastic electron-nucleon scattering at the LHC", JINST 1 (2006), P10001, [InspireHEP] [DOI] [hep-ex/0603016].
L. Frankfurt, et al., "Selected topics in diffraction with protons and nuclei: past, present, and future", [InspireHEP] [arXiv:2203.12289].
O. Brüning, et al., "Electron-Hadron Colliders: EIC, LHeC and FCC-eh", Front.in Phys. 10 (2022), 886473, [InspireHEP] [DOI].
LHeC Collaborationand FCC-eh Study Group, B. Holzer, et al., "Energy Frontier DIS at CERN: the LHeC and the FCC-eh", PoS ICHEP2020 (2021), 687, [InspireHEP] [DOI].
LHeC/FCC-eh Study Group, G. Azuelos, et al., "Beyond Standard Model Physics at the LHeC and the FCC-eh", PoS ICHEP2020 (2021), 227, [InspireHEP] [DOI].
A Brief review of future lepton hadron and photon hadron colliders [InspireHEP]
Y. Hatta, et al., "Proceedings, Probing Nucleons and Nuclei in High Energy Collisions: Dedicated to the Physics of the Electron Ion Collider : Seattle (WA), United States, October 1 - November 16, 2018", [InspireHEP] [DOI] [arXiv:2002.12333].
J. J. Ethier, et al., "Parton Distributions in Nucleons and Nuclei", Ann.Rev.Nucl.Part.Sci. 70 (2020), 43-76, [InspireHEP] [DOI)] [arXiv:2001.07722].

Physics

Hard QCD, Hadronic Final State, Heavy-quarks (c,s,b) and Inclusive DIS

T. Hobbs, et al., "DIS physics at the EIC and LHeC and connections to the future LHC and $\nu$A programs", SciPost Phys.Proc. 8 (2022), 155, [InspireHEP] [DOI] [arXiv:2202.08286].
S. Amoroso, et al., "Snowmass 2021 whitepaper: Proton structure at the precision frontier", [InspireHEP] [arXiv:2203.13923].
G.R. Boroun, et al., "Geometrical scaling of heavy-quark contributions in the low $x$ region", [InspireHEP] [arXiv:2204.07981].
G.R. Boroun, et al., "Importance of heavy quark longitudinal structure function measurements at future circular collider energies", Chin.Phys.C 45 (2021) 6, 063105, [InspireHEP] [DOI)] [arXiv:2101.11829].
M. Siddikov, et al., "Electroproduction of D and B mesons in high-multiplicity ep collisions", Phys.Rev.D 104 (2021) 1, 016032, [InspireHEP] [DOI)] [arXiv:2103.12851].
G.R. Boroun, et al., "Nonlinear corrections on the parametrization methods", Eur.Phys.J.C 81 (2021) 9, 851, Eur.Phys.J.C 81 (2021), 851, [InspireHEP] [DOI] [arXiv:2107.11033].
LHeC Collaborationand FCC-he Study Group, G.R. Boroun, et al., "Higher order approximations to the longitudinal structure function FL from the parametrization of F2 based on the Laplace transformation", Phys.Rev.D 105 (2022) 3, 3, [InspireHEP] [DOI)] [arXiv:2111.08925].
The massless three-loop Wilson coefficients for the deep-inelastic structure functions F2,FL,xF3F_2, F_L, xF_3F2,FL,xF3 and g1g_1g1
DIS coefficient functions at four loops in QCD and beyond
G.R. Boroun, et al., "An evaluation of the proton structure functions $F_2$ and $F_L$ at small $x$", Phys.Lett.B 816 (2021), 136274, [InspireHEP] [DOI)] [arXiv:2010.15357].
V. Guzey, et al., "Next-to-leading order QCD predictions for dijet photoproduction in lepton-nucleus scattering at the future EIC and at possible LHeC, HE-LHeC, and FCC facilities", Phys.Rev.C 102 (2020) 6, 065201, [InspireHEP] [DOI] [arXiv:2003.09129].
G.R. Boroun, et al., "The study of the gluon distribution function and reduced cross section behavior using the proton structure function", Nucl.Phys.A 1006 (2021), 122062, [InspireHEP] [DOI)] [arXiv:1911.11635].
N. Ya Ivanov, et al., "Probing the linearly polarized gluons in unpolarized proton with heavy-quark pair production", J.Phys.Conf.Ser. 1435 (2020) 1, 012011, [InspireHEP] [DOI] [arXiv:1911.09742].
B. Rezaei, et al., "Longitudinal structure function from the parton parameterization", Eur.Phys.J.A 56 (2020) 10, 262, [InspireHEP] [DOI)] [arXiv:1911.06954].
J. Rojo, et al., "The Partonic Content of Nucleons and Nuclei", Oxford Research Encyclopedia of Physics (2021), [InspireHEP] [DOI] [arXiv:1910.03408].
xFitter Developers Team, H. Abdolmaleki, et al., "Recent QCD results from the xFitter project - Probing the strange content of the proton with charmproduction in charged current at LHeC", PoS DIS2019 (2019), 025, [InspireHEP] [DOI] [arXiv:1909.00451].
S. Bailey, et al., "Towards Ultimate Parton Distributions from p+p and e+p Collisions", PoS DIS2019 (2019), 245, [InspireHEP] [DOI] [arXiv:1907.04802].
T.J. Hobbs, et al., "Collinear PDFs in the era of HL-LHC, LHeC, and EIC", PoS DIS2019 (2019), 247, [InspireHEP] [DOI] [arXiv:1907.00988].
xFitter Developers' Team, H. Abdolmaleki, et al., "Probing the strange content of the proton with charm production in charged current at LHeC", Eur.Phys.J.C 79 (2019) 10, 864, [InspireHEP] [DOI] [arXiv:1907.01014].
R. Abdul Khalek, et al., "Probing Proton Structure at the Large Hadron electron Collider", SciPost Phys. 7 (2019) 4, 051, [InspireHEP] [DOI)] [arXiv:1906.10127].
G.R. Boroun, et al., "The exponent of the longitudinal structure function $F_{L}$ at low $x$", Eur.Phys.J.Plus 135 (2020) 1, 68, [InspireHEP] [DOI] [arXiv:1903.04316].
S. R. Klein, et al., "Photoproduction of charged final states in ultraperipheral collisions and electroproduction at an electron-ion collider", Phys.Rev.C 100 (2019) 2, 024620, [InspireHEP] [DOI] [arXiv:1903.02680].
B. Wang, "Constraints on Parton Distribution Functions Imposed by Hadronic Experiments", [InspireHEP].
J. Niehues, et al., "NNLO QCD Corrections to Jet Production in Charged Current Deep Inelastic Scattering", Phys.Lett.B 788 (2019), 243-248, [InspireHEP] [DOI)] [arXiv:1807.02529].
M. Klein, "Future Deep Inelastic Scattering with the LHeC", [InspireHEP] [DOI] [arXiv:1802.04317].
A.V. Efremov, et al., "The ratio $R={\rm d}\sigma_L/{\rm d}\sigma_T$ in heavy-quark pair leptoproduction as a probe of linearly polarized gluons in unpolarized proton", Phys.Lett.B 780 (2018), 303-307, [InspireHEP] [DOI] [arXiv:1801.03398].
T. Horn, "Pion and Kaon Structure Functions at an Electron-Ion Collider", PoS DIS2017 (2018), 115, [InspireHEP] [DOI].
G. Antonio Chirilli, "Non-linear dynamics in DIS at NLO", PoS DIS2017 (2018), 066, [InspireHEP] [DOI].
A.V. Efremov, et al., "How to measure the linear polarization of gluons in unpolarized proton using the heavy-quark pair leptoproduction", Phys.Lett.B 777 (2018), 435-441, [InspireHEP] [DOI] [arXiv:1711.05221].
S. Heidari, et al., "The study of deep inelastic scattering process of electron nucleus at LHeC region", Int.J.Mod.Phys.E 26 (2017) 10, 1750067, [InspireHEP] [DOI].
R. D. Ball, et al., "Parton distributions with small-x resummation: evidence for BFKL dynamics in HERA data", Eur.Phys.J.C 78 (2018) 4, 321, [InspireHEP] [DOI] [arXiv:1710.05935].
M. Gómez-Bock, et al., "A proposal to avoid the ambiguity in the identification of the scale energy parameter $\tilde{Q}^{2}$ of the PDFs in the $Z$-production in $eP$-dis", [InspireHEP] [arXiv:1705.00593].
H. Lin, et al., "From C to Parton Sea: Bjorken-x Dependence of the PDFs", PoS LATTICE2016 (2016), 005, [InspireHEP] [DOI] [arXiv:1612.09366].
O. Mattelaer, et al., "Automated Neutrino Jet and Top Jet Predictions at Next-to-Leading-Order with Parton Shower Matching in Effective Left-Right Symmetric Models", [InspireHEP] [arXiv:1610.08985].
LHeC study Group, A.M. Cooper-Sarkar, et al., "Improved measurement of parton distribution functions and $\alpha_s(M_Z)$ with the LHeC", PoS DIS2016 (2016), 274, [InspireHEP] [DOI] [arXiv:1605.08579].
A. Kusina, et al., "Frontiers of QCD with Precision nPDFs", EPJ Web Conf. 112 (2016), 03006, [InspireHEP] [DOI] [arXiv:1601.07115].
M. Klein, "Deep inelastic scattering at the energy frontier", Annalen Phys. 528 (2016), 138-144, [InspireHEP] [DOI].
G. Antonio Chirilli, "Non-Linear QCD Dynamics and Wilson Lines", PoS QCDEV2015 (2015), 033, [InspireHEP] [DOI].
G.R. Boroun, et al., "Geometrical scaling behavior of the top structure functions ratio at the LHeC", Phys.Lett.B 744 (2015), 142-145, [InspireHEP] [DOI] [arXiv:1503.01590].
G.R. Boroun, et al., "Top structure function at the LHeC", Phys.Lett.B 741 (2015), 197-201, [InspireHEP] [DOI] [arXiv:1411.6492].
T.J. Hobbs, "The Nonperturbative Structure of Hadrons", [InspireHEP] [arXiv:1408.5463].
Z. Kang, et al., "1-jettiness DIS event shape: NNLL+NLO results", Phys.Rev.D 90 (2014) 1, 014041, [InspireHEP] [DOI] [arXiv:1312.0301].
LHeC study Group, A.M. Cooper-Sarkar, et al., "High Precision DIS with the LHeC", PoS EPS-HEP2013 (2013), 456, [InspireHEP] [DOI] [arXiv:1310.0662].
Z. Kang, et al., "The 1-Jettiness event shape for DIS with NNLL resummation", Int.J.Mod.Phys.Conf.Ser. 25 (2014), 1460041, [InspireHEP] [DOI] [arXiv:1307.6460].
H. Aksakal, et al., "A search for b(c) quark pdf uncertainties at TeV scale ep collider", [InspireHEP] [arXiv:1306.4764].
S.A. Çetin, et al., "Why QCD Explorer stage of the LHeC should have high(est) priority", [InspireHEP] [arXiv:1305.5572].
Z. Kang, et al., "Probing nuclear dynamics in jet production with a global event shape", Phys.Rev.D 88 (2013), 074020, [InspireHEP] [DOI] [arXiv:1303.3063].
M. Hentschinski, et al., "$F_2$ and $F_L$ at small $x$ using a collinearly improved BFKL resummation", Phys.Rev.D 87 (2013) 7, 076005, [InspireHEP] [DOI] [arXiv:1301.5283].
C. Marquet, et al., "Open questions in QCD at high parton density", Nucl.Phys.A 904-905 (2013), 294c-301c, [InspireHEP] [DOI] [arXiv:1212.3482].
N.Ya. Ivanov, "How to measure the charm density in the proton", Phys.Part.Nucl. 45 (2014), 19-22, [InspireHEP] [DOI] [arXiv:1212.3785].
F. Maltoni, et al., "b-initiated processes at the LHC: a reappraisal", JHEP 07 (2012), 022, JHEP 04 (2013), 095 (erratum), [InspireHEP] [DOI] [arXiv:1203.6393].
O. Behnke, "Precision QCD and electroweak physics at LHeC", [InspireHEP] [DOI].
LHeC Study Group, N. Armesto, et al., "QCD at an electron-hadron collider at CERN: The LHeC project", Frascati Phys.Ser. 54 (2012), 22-31, [InspireHEP].
M.B. Gay Ducati, et al., "Inclusive production of dijets at the LHeC", AIP Conf.Proc. 1520 (2013) 1, 306-308, [InspireHEP] [DOI].
N. Ya. Ivanov, "Azimuthal Asymmetry and Ratio $R= F_L / F_T$ as Probes of the Charm Content of the Proton", J.Contemp.Phys. 47 (2012), 47-52, [InspireHEP] [DOI] [arXiv:1604.04310].
D. Boer, et al., "Accessing the distribution of linearly polarized gluons in unpolarized hadrons", [InspireHEP] [arXiv:1107.1400].
S. J. Brodsky, et al., "Novel QCD Phenomenology at the LHeC", [InspireHEP] [arXiv:1106.5820].
T.J. Hobbs, et al., "Testing Partonic Charge Symmetry at a High-Energy Electron Collider", Phys.Lett.B 698 (2011), 123-127, [InspireHEP] [DOI] [arXiv:1101.3923].
D. Boer, et al., "Direct Probes of Linearly Polarized Gluons inside Unpolarized Hadrons", Phys.Rev.Lett. 106 (2011), 132001, [InspireHEP] [DOI] [arXiv:1011.4225].
A. Caldwell, et al., "Investigating the gluonic structure of nuclei via J/psi scattering", Phys.Rev.C 81 (2010), 025203, [InspireHEP] [DOI].
A. Caldwell, et al., "The J/psi Way to Nuclear Structure", [InspireHEP] [arXiv:0909.1254].
K. Golec-Biernat, et al., "F(L) proton structure function from the unified DGLAP/BFKL approach", Phys.Rev.D 80 (2009), 014006, [InspireHEP] [DOI] [arXiv:0905.1321].
P. Newman, "Deep Inelastic Scattering at the TeV Energy Scale and the LHeC Project", Nucl.Phys.B Proc.Suppl. 191 (2009), 307-319, [InspireHEP] [DOI] [arXiv:0902.2292].
M. Klein, et al., "LHeC: Novel designs for electron-quark scattering", CERN Cour. 49N3 (2009), 22-25, [InspireHEP].
O. Behnke, "Recent Study Results on Precision QCD and Electroweak Physics at the LHeC", [InspireHEP].
G. Antonio Chirilli, "High-Energy Amplitudes in Gauge Theories in the Next-to-Leading-Order", [InspireHEP] [DOI].
B. Jager, et al., "Photoproduction of single inclusive jets at future ep colliders in next-to-leading order QCD", Phys.Rev.D 78 (2008), 034017, [InspireHEP] [DOI] [arXiv:0807.0066].
M. Klein, "Parton distributions at the LHeC", [InspireHEP] [DOI].

Small-x, Diffraction, exclusive processes and further QCD properties

P. Lebiedowicz, et al., "Deeply virtual Compton scattering in the tensor-pomeron approach", Phys.Lett.B 835 (2022), 137497, [InspireHEP] [DOI)] [arXiv:2208.12693].
S. Andradé, et al., "Exclusive photoproduction of heavy quarkonia pairs", Phys.Rev.D 105 (2022) 7, 7, [InspireHEP] [DOI)] [arXiv:2202.03288].
N. Armesto, et al., "Signatures of gluon saturation from structure-function measurements", Phys.Rev.D 105 (2022) 11, 114017, [InspireHEP] [DOI)] [arXiv:2203.05846].
F. Carvalho, et al., "Absorptive corrections in leading neutron production", PoS XVHadronPhysics (2022), 053, [InspireHEP] [DOI].
W. Xiang, et al., "Running coupling effect in next-to-leading order Balitsky-Kovchegov evolution equations *", Chin.Phys.C 46 (2022) 5, 054104, [InspireHEP] [DOI].
Y. Xie, et al., "Exclusive processes in ep collisions at the EIC and LHeC: A closer look on the predictions of saturation models", Phys.Rev.D 105 (2022) 1, 014033, Phys.Rev.D 105 (2022) 1, [InspireHEP] [DOI)] [arXiv:2201.10499].
D. Bendova, et al., "Deeply virtual Compton scattering at the EIC and LHeC: a comparison among saturation approaches", Eur.Phys.J.C 82 (2022) 2, 99, [InspireHEP] [DOI].
V. P. Gonçalves, et al., "Coherent and incoherent deeply virtual Compton scattering in electron–ion collisions at the EIC and LHeC", Eur.Phys.J.A 58 (2022) 2, 18, [InspireHEP] [DOI].
C.A. Flett, et al., "Exclusive heavy vector meson electroproduction to NLO in collinear factorisation", JHEP 08 (2021), 150, [InspireHEP] [DOI] [arXiv:2105.07657].
A. Morreale, et al., "Mining for Gluon Saturation at Colliders", Universe 7 (2021) 8, 312, Universe 7 (2021) 8, 312, [InspireHEP] [DOI] [arXiv:2108.08254].
Back-to-back inclusive dijets in DIS at small xxx: Sudakov suppression and gluon saturation at NLO
F. Carvalho, et al., "Leading neutron production at the EIC and LHeC: estimating the impact of the absorptive corrections", Phys.Rev.D 103 (2021) 3, 034021, [InspireHEP] [DOI] [arXiv:2011.09515].
G.M. Peccini, et al., "Dilepton production through timelike Compton scattering within the $k_T$ -factorization approach", Phys.Rev.D 102 (2020) 9, 094015, [InspireHEP] [DOI] [arXiv:2010.03101].
Z. Sun, et al., "$\Upsilon$ electroproduction at HERA, EIC, and LHeC within the nonrelativistic QCD framework", Phys.Rev.D 102 (2020) 11, 114031, [InspireHEP] [DOI)] [arXiv:2010.01790].
X. Wang, et al., "Production of the bottomonium-like states $Z_b$ states at $e$-$h$ and ultraperipheral $h$-$h$ collisions", Chin.Phys.C 45 (2021) 5, 5, [InspireHEP] [DOI] [arXiv:2009.05789].
G. Beuf, et al., "Dipole model at Next-to-Leading Order meets HERA data", PoS HardProbes2020 (2021), 101, [InspireHEP] [DOI] [arXiv:2008.05233].
V. P. Goncalves, et al., "Exclusive vector meson production in electron – ion collisions at the EIC, LHeC and FCC–$eh$", Nucl.Phys.A 1004 (2020), 122055, [InspireHEP] [DOI] [arXiv:2008.03145].
G.M. Peccini, et al., "Investigating the diffractive gluon jet production in lepton-ion collisions", Phys.Rev.C 102 (2020) 3, 034903, [InspireHEP] [DOI] [arXiv:2003.13882].
D. Bendova, et al., "Dissociative production of vector mesons as a new tool to study gluon saturation at electron-ion colliders", PoS LC2019 (2020), 025, [InspireHEP] [DOI].
G. Müller Peccini, "Diffractive jet production in eletron-ion collisions", [InspireHEP].
B. Rezaei, et al., "Color dipole picture and extracting the ratio of structure functions at small $x$", Phys.Rev.C 101 (2020) 4, 045202, [InspireHEP] [DOI] [arXiv:1911.13180].
T.J. Hobbs, et al., "Collinear PDFs in the era of HL-LHC, LHeC, and EIC", PoS DIS2019 (2019), 247, [InspireHEP] [DOI] [arXiv:1907.00988].
A. M. Stasto, et al., "Determination of diffractive parton densities at the LHeC and the FCC-eh", PoS DIS2019 (2019), 257, [InspireHEP] [DOI].
S. R. Klein, et al., "Photoproduction of charged final states in ultraperipheral collisions and electroproduction at an electron-ion collider", Phys.Rev.C 100 (2019) 2, 024620, [InspireHEP] [DOI] [arXiv:1903.02680].
N. Armesto, et al., "Inclusive diffraction in future electron-proton and electron-ion colliders", Phys.Rev.D 100 (2019) 7, 074022, [InspireHEP] [DOI] [arXiv:1901.09076].
J. Cepila, et al., "Vector Meson Electro-production Within the Energy-dependent Hot-spot Model", Acta Phys.Polon.Supp. 12 (2019) 4, 787-792, [InspireHEP] [DOI].
M. Matas, et al., "Impact parameter dependence of the collinearly improved Balitsky-Kovchegov evolution equation", [InspireHEP].
H. Mäntysaari, "Small-$x$ physics at the LHeC", PoS HardProbes2018 (2018), 115, [InspireHEP] [DOI] [arXiv:1811.06328].
D. Bendova, et al., "Dissociative production of vector mesons at electron-ion colliders", Phys.Rev.D 99 (2019) 3, 034025, [InspireHEP] [DOI] [arXiv:1811.06479].
V.P. Gonçalves, et al., "Probing the saturation effects in the inclusives observables at the future $ep/eA$ collider at the LHC", Nucl.Phys.A 978 (2018), 187-200, [InspireHEP] [DOI].
M. Lomnitz, et al., "Exclusive vector meson production at an electron-ion collider", Phys.Rev.C 99 (2019) 1, 015203, [InspireHEP] [DOI] [arXiv:1803.06420].
A.V. Efremov, et al., "The ratio $R={\rm d}\sigma_L/{\rm d}\sigma_T$ in heavy-quark pair leptoproduction as a probe of linearly polarized gluons in unpolarized proton", Phys.Lett.B 780 (2018), 303-307, [InspireHEP] [DOI] [arXiv:1801.03398].
Y. Zhao, et al., "Measurement of Gluon Orbital Angular Momentum at Electron-Ion Collider", PoS DIS2017 (2018), 111, [InspireHEP] [DOI].
T. Horn, "Pion and Kaon Structure Functions at an Electron-Ion Collider", PoS DIS2017 (2018), 115, [InspireHEP] [DOI].
A.V. Efremov, et al., "How to measure the linear polarization of gluons in unpolarized proton using the heavy-quark pair leptoproduction", Phys.Lett.B 777 (2018), 435-441, [InspireHEP] [DOI] [arXiv:1711.05221].
K. He, et al., "P-wave excited $B_c^{**}$ meson photoproduction at the LHeC", J.Phys.G 45 (2018) 5, 055005, [InspireHEP] [DOI] [arXiv:1710.11508].
R. D. Ball, et al., "Parton distributions with small-x resummation: evidence for BFKL dynamics in HERA data", Eur.Phys.J.C 78 (2018) 4, 321, [InspireHEP] [DOI] [arXiv:1710.05935].
N. Armesto, et al., "Diffractive production in ultra-peripheral collisions at high-energy", AIP Conf.Proc. 1819 (2017) 1, 030008, [InspireHEP] [DOI].
T. N. Wistisen, et al., "Vacuum birefringence by Compton backscattering through a strong field", Phys.Rev.D 88 (2013) 5, 053009, [InspireHEP] [DOI].
A. H. Rezaeian, et al., "Impact-parameter dependent Color Glass Condensate dipole model and new combined HERA data", Phys.Rev.D 88 (2013), 074016, [InspireHEP] [DOI] [arXiv:1307.0825].
C. Brenner Mariotto, et al., "Inclusive and exclusive dilepton photoproduction at high energies", Phys.Rev.D 87 (2013) 5, 054028, [InspireHEP] [DOI] [arXiv:1303.1439].
LHeC Study Group, N. Armesto, et al., "Low-x Physics at the LHeC", PoS DIS2013 (2013), 263, [InspireHEP] [DOI].
M. Jansova, "The study of diffractive ep interactions at Hadron-Electron Collider", [InspireHEP].
U. Kaya, et al., "Probing small x(g) region with the LHeC based gamma-p colliders", [InspireHEP] [arXiv:1211.5061].
J. J. Berger, "small x evolution with impact parameter dependence", [InspireHEP].
N. Armesto, et al., "Small-x physics opportunities with a large hadron-electron collider at CERN", AIP Conf.Proc. 1441 (2012) 1, 263-267, [InspireHEP] [DOI].
N. Armesto, et al., "Low-$x$ physics in ep and eA Scattering at the LHeC: Inclusive and final state observables", [InspireHEP] [DOI].
A. M. Stasto, et al., "Diffractive and exclusive processes at small x at the Large Hadron-electron Collider", [InspireHEP] [DOI].
I. Balitsky, "Small-x DIS in the NLO", Nucl.Phys.A 855 (2011), 490-493, [InspireHEP] [DOI].
H. Wang, et al., "Charmed meson production in deep inelastic e + A scattering at small-x", Commun.Theor.Phys. 56 (2011), 307-311, [InspireHEP] [DOI].
H. Wang, et al., "D-meson production in an AdS/CFT inspired model at the LHeC", J.Phys.G 38 (2011), 115003, [InspireHEP] [DOI].
W.J. Stirling, et al., "NLO QCD Corrections to Graviton Induced Deep Inelastic Scattering", Eur.Phys.J.C 71 (2011), 1677, [InspireHEP] [DOI] [arXiv:1104.3086].
P. Laycock, "QCD and low-x physics at a Large Hadron electron Collider", PoS EPS-HEP2011 (2011), 340, [InspireHEP] [DOI] [arXiv:1202.2641].
M.V.T. Machado, et al., "Non-linear QCD dynamics and exclusive production e p collisions", PoS ICHEP2010 (2010), 160, [InspireHEP] [DOI] [arXiv:1011.5190].
A. Caldwell, et al., "Investigating the gluonic structure of nuclei via J/psi scattering", Phys.Rev.C 81 (2010), 025203, [InspireHEP] [DOI].
K. Kutak, "From LHC to LHeC the issue of forward jets", PoS DIS2010 (2010), 074, [InspireHEP] [DOI].
N. Armesto, et al., "Small-x physics at the Large Hadron-electron Collider", PoS DIS2010 (2010), 255, Nucl.Phys.A 855 (2011), 482-485,, [InspireHEP] [DOI)].
P. Newman, "Low x and Diffractive Physics at a Large Hadron Electron Collider", [InspireHEP].
A. Caldwell, et al., "The J/psi Way to Nuclear Structure", [InspireHEP] [arXiv:0909.1254].
J. Rojo, et al., "Parton distributions and small-x QCD at the Large Hadron Electron Collider", [InspireHEP] [arXiv:0906.2079].
J. L. Albacete, et al., "A Global Analysis of DIS Data at Small-x with Running Coupling BK Evolution", [InspireHEP] [arXiv:0906.2721].
S. J. Brodsky, et al., "Reggeon Non-Factorizability and the J=0 Fixed Pole in DVCS", [InspireHEP] [arXiv:0906.5515].
G. Antonio Chirilli, et al., "Small-x Evolution in the Next-to-Leading Order", Mod.Phys.Lett.A 24 (2009), 3052-3061, [InspireHEP] [DOI] [arXiv:1001.2742].
J.B. Dainton, et al., "The LHeC and its low x physics potential", [InspireHEP] [DOI].
P. R. Newman, "Low x physics at the LHeC", [InspireHEP] [DOI].

Higgs Physics

B. Wang, et al., "Electroweak corrections to Higgs boson production at the future LHeC", [InspireHEP] [arXiv:2207.14515].
P. Sharma, et al., "Probing non-standard $HVV (V=W, Z)$ couplings in single Higgs production at future electron-proton collider", [InspireHEP] [arXiv:2207.03862].
S. Behera, et al., "Studies on the $H\rightarrow bb$ cross section measurement at the LHeC with a full detector simulation", Eur.Phys.J.C 82 (2022) 10, 878, [InspireHEP] [DOI] [arXiv:2201.04037].
A. Jueid, et al., "Studies of nonresonant Higgs pair production at electron-proton colliders", Phys.Lett.B 819 (2021), 136417, [InspireHEP] [DOI)] [arXiv:2102.12507].
S. Dutta, et al., "Measuring CP nature of $h\tau {{\bar{\tau }}}$ coupling at $e^-p$ collider", Eur.Phys.J.C 82 (2022) 6, 530, [InspireHEP] [DOI] [arXiv:2109.00329].
H. Williams, "Search for the $H \rightarrow \text{W}^+ \text{W}^-$ Process at the LHeC Experiment", Acta Phys.Polon.B 51 (2020) 9, 1811-1826, [InspireHEP] [DOI] [arXiv:2002.00926].
R. Li, et al., "Probing the trilinear Higgs boson self-coupling via single Higgs production at the LHeC", Phys.Rev.D 101 (2020) 7, 075036, [InspireHEP] [DOI] [arXiv:1910.09424].
O. Flores-Sánchez, et al., "Light charged Higgs boson production at futures $ep$ colliders", PoS DIS2019 (2019), 094, [InspireHEP] [DOI] [arXiv:1908.09405].
R. Li, et al., "Photo-production of the Higgs boson at the LHeC", Nucl.Phys.B 958 (2020), 115134, [InspireHEP] [DOI)] [arXiv:1906.08969].
R. Li, et al., "Probing the charm Yukawa coupling at future $e^{-}p$ and $e^{+}e^{-}$ colliders", Phys.Rev.D 100 (2019) 5, 053008, [InspireHEP] [DOI] [arXiv:1905.09457].
J. Francisco Zurita, et al., "Exotic Higgs decays (and Long-Lived Particles) at future colliders", CERN Yellow Reports: Monographs 3 (2020), 241-246, [InspireHEP] [DOI].
J. de Blas, et al., "Higgs Boson Studies at Future Particle Colliders", JHEP 01 (2020), 139, [InspireHEP] [DOI] [arXiv:1905.03764].
S. Prasad Das, et al., "Neutral and Charged Higgs boson phenomenology at the LHeC and FCC-eh", [InspireHEP] [arXiv:1812.03895].
O. Flores-Sánchez, et al., "Light charged Higgs boson production at the Large Hadron electron Collider", Phys.Rev.D 99 (2019) 9, 095009, [InspireHEP] [DOI] [arXiv:1811.05476].
H. Hesari, et al., "Study of Higgs Effective Couplings at Electron-Proton Colliders", Phys.Rev.D 97 (2018) 9, 095041, [InspireHEP] [DOI] [arXiv:1805.04697].
C. Han, et al., "Searching for the light Higgsinos in the MSSM at future e-p colliders", Phys.Rev.D 98 (2018) 11, 115003, [InspireHEP] [DOI)] [arXiv:1802.03679].
G. Azuelos, et al., "Search for singly charged Higgs bosons in vector-boson scattering at ep colliders", Phys.Rev.D 97 (2018) 11, 116005, [InspireHEP] [DOI] [arXiv:1712.07505].
H. Sun, et al., "Searching for the doubly-charged Higgs bosons in the Georgi-Machacek model at the electron-proton colliders", Phys.Rev.D 96 (2017) 9, 095003, [InspireHEP] [DOI] [arXiv:1710.06284].
H. Bi, et al., "Photoproduction of the $B_c^{(*)}$ meson at the LHeC", Phys.Rev.D 95 (2017) 3, 034019, [InspireHEP] [DOI] [arXiv:1612.07990].
A. Stasto, et al., "Low-x Physics at LHeC/FCC-he and Its Implications on UHECR", PoS DIS2015 (2015), 238, [InspireHEP] [DOI].
B. Blok, et al., "Double parton interactions in $\gamma p, \gamma A$ collisions in the direct photon kinematics", Eur.Phys.J.C 74 (2014) 12, 3214, [InspireHEP] [DOI] [arXiv:1410.5064].
T.J. Hobbs, "The Nonperturbative Structure of Hadrons", [InspireHEP] [arXiv:1408.5463].
N. Armesto, et al., "Exclusive vector meson production at high energies and gluon saturation", Phys.Rev.D 90 (2014) 5, 054003, [InspireHEP] [DOI] [arXiv:1402.4831].
LHeC Study Group, N. Armesto, et al., "Small-x Physics in eA at the LHeC: Understanding the Initial State of URHIC", EPJ Web Conf. 66 (2014), 04019, [InspireHEP] [DOI].
B. Coleppa, et al., "Measuring CP nature of top-Higgs couplings at the future Large Hadron electron collider", Phys.Lett.B 770 (2017), 335-341, [InspireHEP] [DOI] [arXiv:1702.03426].
J. Esteves, "Understanding the Higgs boson with the Large Hadron Electron Collider", J.Phys.Conf.Ser. 645 (2015) 1, 012009, [InspireHEP] [DOI].
Y. Tang, et al., "Invisible Higgs Decay at the LHeC", Phys.Rev.D 94 (2016) 1, 011702, [InspireHEP] [DOI] [arXiv:1508.01095].
M. Kumar, "Single Top and Higgs Production in $e^- p$ collisions", J.Phys.Conf.Ser. 645 (2015) 1, 012005, [InspireHEP] [DOI] [arXiv:1506.03999].
M. Kumar, et al., "Double Higgs production at FCC-he and prospects for measurements of self-coupling", J.Phys.Conf.Ser. 623 (2015) 1, 012017, [InspireHEP] [DOI].
B. Mellado, "The status of the LHeC project and its impact on Higgs Physics", [InspireHEP].
I.T. Cakir, et al., "Probing Anomalous HZZ Couplings at the LHeC", Mod.Phys.Lett.A 28 (2013) 31, 1350142, [InspireHEP] [DOI] [arXiv:1304.3616].
B. Mellado, "Physics of the Higgs Boson at the LHeC", PoS DIS2013 (2013), 264, [InspireHEP] [DOI].
A. Senol, "Anomalous Higgs Couplings at the LHeC", Nucl.Phys.B 873 (2013), 293-299, [InspireHEP] [DOI] [arXiv:1212.6869].
S. S. Biswal, et al., "Azimuthal Angle Probe of Anomalous $HWW$ Couplings at a High Energy $ep$ Collider", Phys.Rev.Lett. 109 (2012), 261801, [InspireHEP] [DOI] [arXiv:1203.6285].
B. Jager, "Next-to-leading order QCD corrections to Higgs production at a future lepton-proton collider", Phys.Rev.D 81 (2010), 054018, [InspireHEP] [DOI] [arXiv:1001.3789].
T. Han, et al., "Higgs Boson Searches and the H b anti-b Coupling at the LHeC", Phys.Rev.D 82 (2010), 016009, [InspireHEP] [DOI] [arXiv:0909.2460].

Heavy-Ion and Nuclear Physics

V. P. Gonçalves, et al., "Coherent and incoherent deeply virtual Compton scattering in electron–ion collisions at the EIC and LHeC", Eur.Phys.J.A 58 (2022) 2, 18, [InspireHEP] [DOI].
G. M. Peccini, "Study of diffractive gluon jet production in electron‐ion collisions", Astron.Nachr. 342 (2021) 1-2, 443-449, [InspireHEP] [DOI].
G.M. Peccini, et al., "Exclusive dilepton production via timelike Compton scattering in heavy ion collisions", Phys.Rev.D 103 (2021) 5, 054009, [InspireHEP] [DOI] [arXiv:2101.08338].
The Nucleon Energy Correlators
LHeC Collaborationand FCC-he Study Group, H. Mäntysaari, et al., "Electron-Ion Collisions at the LHeC and FCC-he", PoS ICHEP2020 (2021), 553, [InspireHEP] [DOI] [arXiv:2010.05481].
J.T. Amaral, et al., "QCD traveling waves phenomenology revisited", Phys.Rev.D 103 (2021) 1, 016013, [InspireHEP] [DOI] [arXiv:2006.08423].
M. Krelina, et al., "Nuclear shadowing in DIS at electron-ion colliders", Eur.Phys.J.Plus 135 (2020) 6, 444, [InspireHEP] [DOI] [arXiv:2003.04156].
T.J. Hobbs, et al., "Probing Nuclear Structure with Future Colliders", [InspireHEP] [DOI] [arXiv:2001.07862].
N. Armesto, "Resolving the Partonic Structure of Nuclei through Energy-Frontier eA Scattering", PoS HardProbes2018 (2019), 123, [InspireHEP] [DOI].
Z. Citron, et al., "Report from Working Group 5 : Future physics opportunities for high-density QCD at the LHC with heavy-ion and proton beams", CERN Yellow Rep.Monogr. 7 (2019), 1159-1410, [InspireHEP] [DOI] [arXiv:1812.06772].
N. Armesto Perez, et al., "Future of Nuclear parton densities", PoS DIS2018 (2018), 180, [InspireHEP] [DOI].
N. Armesto Perez, "Nuclear Physics in eA collisions", PoS DIS2017 (2018), 107, [InspireHEP] [DOI].
LHeC study Group, H. Paukkunen, et al., "An update on nuclear PDFs at the LHeC", PoS DIS2017 (2018), 109, [InspireHEP] [DOI] [arXiv:1709.08342].
- I. Helenius, et al., "nPDF constraints from the Large Hadron Electron Collider", PoS DIS2016 (2016), 276, [InspireHEP] [DOI] [arXiv:1606.09003].
G.R. Boroun, et al., "Nuclear longitudinal structure function in eA processes at the LHeC", Int.J.Mod.Phys.A 32 (2017) 33, 1750197, [InspireHEP] [DOI] [arXiv:1606.02864].
LHeC Study Group, P. Zurita, et al., "Heavy-ion physics with high-energy e-A scattering", Nucl.Part.Phys.Proc. 273-275 (2016), 1526-1531, [InspireHEP] [DOI].
M. Klein, "Nuclear Parton Distributions with the LHeC", EPJ Web Conf. 112 (2016), 03002, [InspireHEP] [DOI].
W. Zhu, et al., "The chaotic effects in a nonlinear QCD evolution equation", Nucl.Phys.B 911 (2016), 1-35, [InspireHEP] [DOI] [arXiv:1603.04158].
N. Armesto, et al., "Nuclear collisions at the Future Circular Collider", Nucl.Phys.A 956 (2016), 854-857, [InspireHEP] [DOI] [arXiv:1601.02963].
I. Helenius, et al., "Electron-Ion Physics with the LHeC", PoS DIS2015 (2015), 226, [InspireHEP] [DOI] [arXiv:1509.02802].
B. Blok, et al., "Double parton interactions in $\gamma p, \gamma A$ collisions in the direct photon kinematics", Eur.Phys.J.C 74 (2014) 12, 3214, [InspireHEP] [DOI] [arXiv:1410.5064].
LHeC Study Group, N. Armesto, et al., "Small-x Physics in eA at the LHeC: Understanding the Initial State of URHIC", EPJ Web Conf. 66 (2014), 04019, [InspireHEP] [DOI].
LHeC Study Group, H. Paukkunen, et al., "Nuclear PDFs from the LHeC perspective", PoS DIS2013 (2013), 276, [InspireHEP] [DOI] [arXiv:1306.2486].
Z. Kang, et al., "Probing nuclear dynamics in jet production with a global event shape", Phys.Rev.D 88 (2013), 074020, [InspireHEP] [DOI] [arXiv:1303.3063].
LHeC Study Group, N. Armesto, et al., "Physics at low $x_{Bj}$ and in $e$A at the LHeC", J.Phys.Conf.Ser. 422 (2013), 012030, [InspireHEP] [DOI].
H. Xing, et al., "Transverse momentum imbalance of back-to-back particle production in p+A and e+A collisions", Phys.Rev.D 86 (2012), 094010, [InspireHEP] [DOI] [arXiv:1206.1826].
E.R. Cazaroto, et al., "Exclusive processes in electron-ion collisions in the dipole formalism", AIP Conf.Proc. 1520 (2013) 1, 460-462, [InspireHEP] [DOI].
D. de Florian, et al., "Global Analysis of Nuclear Parton Distributions", Phys.Rev.D 85 (2012), 074028, [InspireHEP] [DOI] [arXiv:1112.6324].
A. Accardi, et al., "Nuclear physics with a medium-energy Electron-Ion Collider", Eur.Phys.J.A 48 (2012), 92, [InspireHEP] [DOI] [arXiv:1110.1031].
L. Frankfurt, et al., "Leading Twist Nuclear Shadowing Phenomena in Hard Processes with Nuclei", Phys.Rept. 512 (2012), 255-393, [InspireHEP] [DOI] [arXiv:1106.2091].
W.A. Horowitz, et al., "Measuring the Gluon Density in e + A Collisions: KLN CGC, DGLAP Glauber, or Neither?", [InspireHEP] [arXiv:1102.5058].
K. Aulenbacher, et al., "Status of polarized lepton-ion colliders", J.Phys.Conf.Ser. 295 (2011), 012003, [InspireHEP] [DOI].
N. Armesto, et al., "Nuclear effects on the longitudinal structure function at small x", Phys.Lett.B 694 (2011), 38-43, [InspireHEP] [DOI] [arXiv:1005.2035].

Electroweak Physics

B. Wang, et al., "Electroweak corrections to Higgs boson production at the future LHeC", [InspireHEP] [arXiv:2207.14515].
D. Britzger, et al., "Precision electroweak measurements at the LHeC and the FCC-eh", PoS EPS-HEP2021 (2022), 485, PoS ESP-HEP2021 (2022), 485, [InspireHEP] [DOI] [arXiv:2203.06237].
G.M. Peccini, et al., "Exclusive Z0 production in ep and eA collisions at high energies", Phys.Rev.D 106 (2022) 1, 014002, [InspireHEP] [DOI)] [arXiv:2204.10350].
S. Spor, et al., "Sensitivity analysis for the anomalous $W^+W^-\gamma $ couplings at the LHeC and the FCC-he", Eur.Phys.J.Plus 137 (2022) 1, 80, Eur.Phys.J.Plus 137 (2022), 80, [InspireHEP] [DOI] [arXiv:2104.00477].
K. Piotrzkowski, et al., "New electroweak challenges and opportunities at the LHeC", PoS EPS-HEP2021 (2022), 486,, 2021_JINST_16_P09023, [InspireHEP] [DOI] [arXiv:2109.08001].
Hector 1.00: A Program for the calculation of QED, QCD and electroweak corrections to e p and lepton+- N deep inelastic neutral and charged current scattering [DOI]
The anomalous Zbb¯ couplings at the HERA and EIC [DOI]
D. Britzger, et al., "Electroweak physics in inclusive deep inelastic scattering at the LHeC", Eur.Phys.J.C 80 (2020) 9, 831, [InspireHEP] [DOI] [arXiv:2007.11799].
A. Gutiérrez-Rodríguez, et al., "Study on the anomalous quartic $W^+W^-\gamma \gamma $ couplings of electroweak bosons in $e^-p$ collisions at the LHeC and the FCC-he", Eur.Phys.J.C 81 (2021) 3, 210, [InspireHEP] [DOI)] [arXiv:2005.11509].
E. Gürkanli, et al., "Sensitivity physics expected to the measurement of the quartic $WW\gamma\gamma$ couplings at the LHeC and the FCC-he", J.Phys.G 47 (2020) 9, 095006, [InspireHEP] [DOI)] [arXiv:2003.06669].
[Top and Electroweak Physics at the LHeC and the FCC-eh]( Top and Electroweak Physics at the LHeC and the FCC-eh ) [[DOI]( Top and Electroweak Physics at the LHeC and the FCC-eh )]
V. Ari, et al., "Anomalous quartic $W^+W^-\gamma \gamma $ couplings in $e^-p$ collisions at the LHeC and the FCC-he", Eur.Phys.J.Plus 135 (2020) 3, 336, [InspireHEP] [DOI)] [arXiv:1911.03993].
M. Köksal, et al., "Bounds on the non-standard $W^+W^-\gamma$ couplings at the LHeC and the FCC-he", Phys.Lett.B 808 (2020), 135661, [InspireHEP] [DOI] [arXiv:1910.06747].
A. Gutiérrez-Rodríguez, et al., "Probing model-independent limits on $W^+W^-\gamma$ triple gauge boson vertex at the LHeC and the FCC-he", J.Phys.G 47 (2020) 5, 055005, [InspireHEP] [DOI] [arXiv:1910.02307].
W. Liu, et al., "Top FCNC interactions through dimension six four-fermion operators at the electron proton collider", Phys.Rev.D 100 (2019) 1, 015011, [InspireHEP] [DOI] [arXiv:1906.04884].
E. Gurkanli, et al., "Analysis of the anomalous quartic WWWW couplings at the LHeC and the FCC-he", Eur.Phys.J.Plus 136 (2021) 7, 784, [InspireHEP] [DOI] [arXiv:1904.06990].
C. Schwanenberger, "Top and Electroweak Physics at the LHeC and the FCC-eh", PoS EPS-HEP2019 (2020), 635, [InspireHEP] [DOI].
V. Ari, et al., "Model independent study for the anomalous quartic $\WW \gamma\gamma$ couplings at future electron-proton colliders", Nucl.Phys.B 957 (2020), 115102, [InspireHEP] [DOI] [arXiv:1812.07187].
LHeC/FCC-eh Study Group, C. Schwanenberger, et al., "Top and electroweak physics at the LHeC and the FCC-eh", PoS EPS-HEP2017 (2018), 464, [InspireHEP] [DOI].
D. Britzger, et al., "Precision electroweak physics at the LHeC and FCC-eh", PoS DIS2017 (2018), 105, [InspireHEP] [DOI].
R. Li, et al., "Probing anomalous $WW\gamma$ triple gauge bosons coupling at the LHeC", Phys.Rev.D 97 (2018) 7, 075043, [InspireHEP] [DOI] [arXiv:1711.05607].
LHeC Study Group, Z. Zhang, et al., "Top and EW Physics at the LHeC", PoS EPS-HEP2015 (2015), 342, [InspireHEP] [DOI] [arXiv:1511.05399].
I.T. Cakir, et al., "Search for anomalous $WW\gamma$ and $WWZ$ couplings with polarized $e$-beam at the LHeC", Acta Phys.Polon.B 45 (2014) 10, 1947, [InspireHEP] [DOI] [arXiv:1406.7696].
S. S. Biswal, et al., "Anomalous Triple Gauge Vertices at the Large Hadron-Electron Collider", [InspireHEP] [arXiv:1405.6056].
O. Behnke, "Precision QCD and electroweak physics at LHeC", [InspireHEP] [DOI].
O. Behnke, "Recent Study Results on Precision QCD and Electroweak Physics at the LHeC", [InspireHEP].

Top-quark Physics

A. O. Bouzas, et al., "Top quark effective couplings from top-pair tagged photoproduction in pe- collisions", Phys.Rev.D 105 (2022) 11, 115002, [InspireHEP] [DOI)] [arXiv:2111.04723].
G.R. Boroun, et al., "Collinear approach for top quark production at ep colliders", [InspireHEP] [arXiv:2109.09583].
M. Gao, et al., "Differential distributions for single top quark production at the LHeC", Phys.Rev.D 104 (2021) 5, 053005, [InspireHEP] [DOI)] [arXiv:2103.15846].
B. Rezaei, et al., "Searching for top quark pair production cross section at LHeC and FCC-eh", EPL 130 (2020) 5, 51002, [InspireHEP] [DOI)] [arXiv:2006.07394].
C. Schwanenberger, "Top and Electroweak Physics at the LHeC and the FCC-eh", PoS EPS-HEP2019 (2020), 635, [InspireHEP] [DOI].
S. Behera, et al., "Fingerprinting the Top quark FCNC via anomalous $Ztq$ couplings at the LHeC", Phys.Rev.D 100 (2019) 1, 015006, [InspireHEP] [DOI] [arXiv:1811.04681].
O. Cakir, et al., "Probing top quark FCNC $tq\gamma$ and $tqZ$ couplings at future electron-proton colliders", Nucl.Phys.B 944 (2019), 114640, [InspireHEP] [DOI] [arXiv:1809.01923].
LHeC/FCC-eh top physics Study Group, H. Sun, et al., "TOP Production at the electron proton colliders", PoS DIS2018 (2018), 186, [InspireHEP] [DOI].
H. Sun, "Measuring the CKM matrix element ${\mathrm{V_{td}}}$ and ${\mathrm{V_{ts}}}$ at the electron proton colliders", PoS DIS2018 (2018), 167, [InspireHEP] [DOI].
LHeC/FCC-eh Study Group, C. Schwanenberger, et al., "Top and electroweak physics at the LHeC and the FCC-eh", PoS EPS-HEP2017 (2018), 464, [InspireHEP] [DOI].
G. R. Boroun, et al., "Azimuthal Dependence of Intrinsic Top in Photon-Quark Scattering and Higgs Production in Boson-Gluon Fusion DIS", Commun.Theor.Phys. 68 (2017) 5, 654, [InspireHEP] [DOI].
H. Sun, "Overview of top quark physics at the ep colliders", PoS DIS2017 (2018), 104, [InspireHEP] [DOI] [arXiv:1710.06260].
Single top production at future epe pep colliders [DOI]
B. Coleppa, et al., "Measuring CP nature of top-Higgs couplings at the future Large Hadron electron collider", Phys.Lett.B 770 (2017), 335-341, [InspireHEP] [DOI] [arXiv:1702.03426].
H. Sun, et al., "Exploring the Anomalous Top-Higgs FCNC Couplings at the electron proton colliders", Eur.Phys.J.C 78 (2018) 4, 281, [InspireHEP] [DOI] [arXiv:1602.04670].
A. O. Bouzas, et al., "Top quark physics at the LHeC", J.Phys.Conf.Ser. 651 (2015) 1, 012004, [InspireHEP] [DOI].
A. O. Bouzas, et al., "Top quark electromagnetic dipole moments", J.Phys.Conf.Ser. 651 (2015) 1, 012014, [InspireHEP] [DOI].
G.R. Boroun, et al., "Top reduced cross section behavior at the LHeC kinematic range", Chin.Phys.C 41 (2017) 1, 013104, [InspireHEP] [DOI] [arXiv:1510.02914].
W. Liu, et al., "Probing the anomalous FCNC top-Higgs Yukawa couplings at the Large Hadron Electron Collider", Phys.Rev.D 92 (2015) 7, 074015, [InspireHEP] [DOI] [arXiv:1507.03264].
M. Kumar, "Single Top and Higgs Production in $e^- p$ collisions", J.Phys.Conf.Ser. 645 (2015) 1, 012005, [InspireHEP] [DOI] [arXiv:1506.03999].
G.R. Boroun, et al., "Geometrical scaling behavior of the top structure functions ratio at the LHeC", Phys.Lett.B 744 (2015), 142-145, [InspireHEP] [DOI] [arXiv:1503.01590].
I.A. Sarmiento-Alvarado, et al., "Analysis of top-quark charged-current coupling at the LHeC", J.Phys.G 42 (2015) 8, 085001, [InspireHEP] [DOI] [arXiv:1412.6679].
G.R. Boroun, et al., "Top structure function at the LHeC", Phys.Lett.B 741 (2015), 197-201, [InspireHEP] [DOI] [arXiv:1411.6492].
A. O. Bouzas, et al., "Probing ttγ and ttZ couplings at the LHeC", Phys.Rev.D 88 (2013) 9, 094007, [InspireHEP] [DOI] [arXiv:1308.5634].
S. Dutta, et al., "Measuring anomalous $Wtb$ couplings at $e^-p$ collider", Eur.Phys.J.C 75 (2015) 12, 577, [InspireHEP] [DOI] [arXiv:1307.1688].
I.T. Cakir, et al., "Associated Production of Single Top Quark and W-boson Through Anomalous Couplings at LHeC based $\gamma p$ Colliders", Mod.Phys.Lett.A 29 (2014), 1450021, [InspireHEP] [DOI] [arXiv:1301.2617].
I.T. Cakir, et al., "Anomalous Single Top Production at the Large Hadron electron Collider Based gamma p Collider", Phys.Lett.B 685 (2010), 170-173, [InspireHEP] [DOI] [arXiv:0911.4194].

Beyond the Standard Model (BSM)

L. Shang, et al., "Single production of vector-like $B$ quark decaying into $bZ$ at future $ep$ colliders", Nucl.Phys.B 984 (2022), 115977, [InspireHEP] [DOI)].
E. Malwa, et al., "Feasibility of the observation of a heavy scalar through the fully hadronic final state at the LHeC", [InspireHEP] [arXiv:2208.14767].
P. Sharma, et al., "Probing non-standard $HVV (V=W, Z)$ couplings in single Higgs production at future electron-proton collider", [InspireHEP] [arXiv:2207.03862].
G. Huang, et al., "Search for Leptophilic Dark Matter at the LHeC", [InspireHEP] [arXiv:2207.01656].
C. Yue, et al., "Searching for the charged-current non-standard neutrino interactions at the $e^{-}p$ colliders", Nucl.Phys.B 982 (2022), 115894, [InspireHEP] [DOI)] [arXiv:2207.06573].
T. Han, et al., "BSM $\nu$ physics: complementarity across energies -- a white paper for Snowmass 2021", [InspireHEP] [arXiv:2203.06131].
C.P. Oliveira, et al., "Compton-like dark photon production in electron–nucleus collisions", J.Phys.G 49 (2022) 3, 035001, [InspireHEP] [DOI].
H. Gu, et al., "Search for heavy Majorana neutrinos at electron-proton colliders", Phys.Rev.D 106 (2022) 1, 015006, [InspireHEP] [DOI)] [arXiv:2201.12997].
R. Gonzalez Suarez, "Long-lived Particles at Future Colliders", Acta Phys.Polon.B 52 (2021) 8, 953,, Acta Phys.Polon.B 52 (2021), 953, [InspireHEP] [DOI] [arXiv:2102.07597].
S. Spor, et al., "Sensitivity analysis for the anomalous $W^+W^-\gamma $ couplings at the LHeC and the FCC-he", Eur.Phys.J.Plus 137 (2022) 1, 80, Eur.Phys.J.Plus 137 (2022), 80, [InspireHEP] [DOI] [arXiv:2104.00477].
G. Cottin, et al., "Displaced neutrino jets at the LHeC", JHEP 06 (2022), 168, [InspireHEP] [DOI] [arXiv:2104.13578].
S. Ashanujjaman, et al., "A genuine fermionic quintuplet seesaw model: phenomenological introduction", JHEP 06 (2021), 084, [InspireHEP] [DOI] [arXiv:2012.15609].
P. Bandyopadhyay, et al., "Zeros of amplitude in the associated production of photon and leptoquark at $e-p$ collider", Eur.Phys.J.C 81 (2021) 4, 315, [InspireHEP] [DOI] [arXiv:2012.13644].
G. Azuelos, et al., "Testing the $R_{D^{(*)}}$ anomaly at the LHeC", Eur.Phys.J.C 81 (2021) 12, 1123, Eur.Phys.J.C 81 (2021), 1123, [InspireHEP] [DOI] [arXiv:2012.11514].
S. Antusch, et al., "Searching for charged lepton flavor violation at $ep$ colliders", JHEP 03 (2021), 230, [InspireHEP] [DOI] [arXiv:2010.08907].
K. Cheung, et al., "Exotic Higgs decays into displaced jets at the LHeC", JHEP 02 (2021), 161, [InspireHEP] [DOI] [arXiv:2008.09614].
G. D. Kribs, et al., "Breaking up the Proton: An Affair with Dark Forces", Phys.Rev.Lett. 126 (2021) 1, 011801, [InspireHEP] [DOI] [arXiv:2007.15655].
A. Gutiérrez-Rodríguez, et al., "Study on the anomalous quartic $W^+W^-\gamma \gamma $ couplings of electroweak bosons in $e^-p$ collisions at the LHeC and the FCC-he", Eur.Phys.J.C 81 (2021) 3, 210, [InspireHEP] [DOI)] [arXiv:2005.11509].
X. Gong, et al., "Single production of vector-like bottom quark at the LHeC", Eur.Phys.J.C 80 (2020) 9, 876, [InspireHEP] [DOI] [arXiv:2005.10012].
M. Fabbrichesi, et al., "The Dark Photon", SpringerBriefs in Physics 2020, [InspireHEP] [DOI)] [arXiv:2005.01515].
T. Han, et al., "Scalar and tensor neutrino interactions", JHEP 07 (2020), 207, [InspireHEP] [DOI] [arXiv:2004.13869].
Z. Sun, et al., "The production of the doubly charmed baryon in deeply inelastic $ep$ scattering at the Large Hadron Electron Collider", JHEP 07 (2020), 034, [InspireHEP] [DOI] [arXiv:2004.01012].
S. Antusch, et al., "Probing $Z^\prime$ mediated charged lepton flavor violation with taus at the LHeC", Phys.Lett.B 810 (2020), 135796, [InspireHEP] [DOI)] [arXiv:2003.11091].
E. Gürkanli, et al., "Sensitivity physics expected to the measurement of the quartic $WW\gamma\gamma$ couplings at the LHeC and the FCC-he", J.Phys.G 47 (2020) 9, 095006, [InspireHEP] [DOI)] [arXiv:2003.06669].
C. Schwanenberger, et al., "Beyond the Standard Model physics at the LHeC and the FCC-he", PoS EPS-HEP2019 (2020), 563, [InspireHEP] [DOI].
V. Ari, et al., "Anomalous quartic $W^+W^-\gamma \gamma $ couplings in $e^-p$ collisions at the LHeC and the FCC-he", Eur.Phys.J.Plus 135 (2020) 3, 336, [InspireHEP] [DOI)] [arXiv:1911.03993].
M. Köksal, et al., "Bounds on the non-standard $W^+W^-\gamma$ couplings at the LHeC and the FCC-he", Phys.Lett.B 808 (2020), 135661, [InspireHEP] [DOI] [arXiv:1910.06747].
A. Gutiérrez-Rodríguez, et al., "Probing model-independent limits on $W^+W^-\gamma$ triple gauge boson vertex at the LHeC and the FCC-he", J.Phys.G 47 (2020) 5, 055005, [InspireHEP] [DOI] [arXiv:1910.02307].
A. Michel, et al., "Breaking of Lorentz Invariance in Electron-Proton Parity Violation", Phys.Rev.D 100 (2019) 9, 095011, [InspireHEP] [DOI] [arXiv:1909.10627].
M. D'Onofrio, et al., "Searching for Dark Photons at the LHeC and FCC-he", Phys.Rev.D 101 (2020) 1, 015020, [InspireHEP] [DOI] [arXiv:1909.02312].
O. Flores-Sánchez, et al., "Light charged Higgs boson production at futures $ep$ colliders", PoS DIS2019 (2019), 094, [InspireHEP] [DOI] [arXiv:1908.09405].
S. Antusch, et al., "Lepton-Trijet and Displaced Vertex Searches for Heavy Neutrinos at Future Electron-Proton Colliders", JHEP 03 (2020), 110, [InspireHEP] [DOI] [arXiv:1908.02852].
J. Francisco Zurita, et al., "Exotic Higgs decays (and Long-Lived Particles) at future colliders", CERN Yellow Reports: Monographs 3 (2020), 241-246, [InspireHEP] [DOI].
J. Hou, et al., "The signatures of the new particles $h_2$ and $Z_{\mu\tau}$ at e-p colliders in the $U(1){L\mu-L_\tau}$ model", Eur.Phys.J.C 79 (2019) 12, 983, [InspireHEP] [DOI] [arXiv:1905.00627].
C. Yue, et al., "Searching for axionlike particles at future $ep$ colliders", Phys.Rev.D 100 (2019) 1, 015020, [InspireHEP] [DOI)] [arXiv:1904.10657].
E. Gurkanli, et al., "Analysis of the anomalous quartic WWWW couplings at the LHeC and the FCC-he", Eur.Phys.J.Plus 136 (2021) 7, 784, [InspireHEP] [DOI] [arXiv:1904.06990].
B. Yang, et al., "Single production of vectorlike top partner decaying to Wb in the leptonic channel at ep colliders in the littlest Higgs model with T-parity", Phys.Rev.D 99 (2019) 9, 095002, [InspireHEP] [DOI] [arXiv:1904.07434].
S. Jana, et al., "Displaced Vertex and Disappearing Track Signatures in type-III Seesaw", [InspireHEP] [arXiv:1911.09037].
R. Padhan, et al., "Signatures of $\tilde{R}_2$ class of Leptoquarks at the upcoming $ep$ colliders", Phys.Rev.D 101 (2020) 7, 075037, [InspireHEP] [DOI] [arXiv:1912.07236].
G. Azuelos, et al., "Search for the SUSY electroweak sector at $ep$ colliders", Phys.Rev.D 101 (2020) 9, 095015, [InspireHEP] [DOI] [arXiv:1912.03823].
V. Ari, et al., "Model independent study for the anomalous quartic $\WW \gamma\gamma$ couplings at future electron-proton colliders", Nucl.Phys.B 957 (2020), 115102, [InspireHEP] [DOI] [arXiv:1812.07187].
S. Sultansoy, et al., "Energy frontier lepton-hadron colliders, vector-like quarks and leptons, preons and so on", [InspireHEP] [arXiv:1901.00309].
D. Curtin, et al., "Closing the light gluino gap with electron-proton colliders", Phys.Rev.D 99 (2019) 5, 055011, [InspireHEP] [DOI] [arXiv:1812.01568].
S. Li, et al., "Heavy Majorana Neutrino Production at Future $ep$ Colliders", Phys.Lett.B 795 (2019), 49-55, [InspireHEP] [DOI] [arXiv:1811.10313].
O. Flores-Sánchez, et al., "Light charged Higgs boson production at the Large Hadron electron Collider", Phys.Rev.D 99 (2019) 9, 095009, [InspireHEP] [DOI] [arXiv:1811.05476].
Y. Yu, et al., "The signatures of doubly charged leptons at LHeC", J.Phys.G 45 (2018) 12, 125003, [InspireHEP] [DOI].
S. Behera, et al., "Fingerprinting the Top quark FCNC via anomalous $Ztq$ couplings at the LHeC", Phys.Rev.D 100 (2019) 1, 015006, [InspireHEP] [DOI] [arXiv:1811.04681].
A. Das, et al., "Probing right handed neutrinos at the LHeC and lepton colliders using fat jet signatures", Phys.Rev.D 99 (2019) 5, 055030, [InspireHEP] [DOI)] [arXiv:1811.04291].
L. Delle Rose, et al., "Prospects for Heavy Scalar Searches at the LHeC", Int.J.Mod.Phys.A 34 (2019) 23, 1950127, [InspireHEP] [DOI)] [arXiv:1809.04321].
O. Cakir, et al., "Probing top quark FCNC $tq\gamma$ and $tqZ$ couplings at future electron-proton colliders", Nucl.Phys.B 944 (2019), 114640, [InspireHEP] [DOI] [arXiv:1809.01923].
M. Köksal, "Search for the electromagnetic moments of the $\tau$ lepton in photon–photon collisions at the LHeC and the FCC-he", J.Phys.G 46 (2019), 065003, [InspireHEP] [DOI)] [arXiv:1809.01963].
S. Mandal, et al., "Probing leptoquarks and heavy neutrinos at the LHeC", Phys.Rev.D 98 (2018) 9, 095004, [InspireHEP] [DOI] [arXiv:1807.06455].
G. Azuelos, et al., "BSM physics at the LHeC and the FCC-eh", PoS DIS2018 (2018), 190, [InspireHEP] [DOI] [arXiv:1807.01618].
S. Jana, et al., "Displaced vertex signature of type-I seesaw model", Phys.Rev.D 98 (2018) 3, 035023, [InspireHEP] [DOI] [arXiv:1804.06828].
J. Zhang, et al., "Signals of the first generation scalar leptoquarks at LHeC", Mod.Phys.Lett.A 33 (2018) 06, 1850039, [InspireHEP] [DOI].
L. Duarte, et al., "Angular and polarization trails from effective interactions of Majorana neutrinos at the LHeC", Eur.Phys.J.C 78 (2018) 5, 352, [InspireHEP] [DOI] [arXiv:1802.07620].
C. Han, et al., "Searching for the light Higgsinos in the MSSM at future e-p colliders", Phys.Rev.D 98 (2018) 11, 115003, [InspireHEP] [DOI)] [arXiv:1802.03679].
G. Azuelos, et al., "Search for singly charged Higgs bosons in vector-boson scattering at ep colliders", Phys.Rev.D 97 (2018) 11, 116005, [InspireHEP] [DOI] [arXiv:1712.07505].
D. Curtin, et al., "New Physics Opportunities for Long-Lived Particles at Electron-Proton Colliders", JHEP 07 (2018), 024, [InspireHEP] [DOI] [arXiv:1712.07135].
R. Li, et al., "Probing anomalous $WW\gamma$ triple gauge bosons coupling at the LHeC", Phys.Rev.D 97 (2018) 7, 075043, [InspireHEP] [DOI] [arXiv:1711.05607].
H. Sun, et al., "Searching for the doubly-charged Higgs bosons in the Georgi-Machacek model at the electron-proton colliders", Phys.Rev.D 96 (2017) 9, 095003, [InspireHEP] [DOI] [arXiv:1710.06284].
H. Sun, et al., "Searching for the doubly-charged Higgs bosons in the Georgi-Machacek model at the ep colliders", PoS DIS2017 (2018), 085, [InspireHEP] [DOI] [arXiv:1710.06272].
O. Fischer, et al., "Searches for Sterile Neutrinos at Future Electron-Proton Colliders", PoS DIS2017 (2018), 090, [InspireHEP] [DOI] [arXiv:1709.00880].
L. Han, et al., "Single vector-like $T$-quark search via the $T \to Wb$ decay channel at the LHeC", Phys.Lett.B 771 (2017), 106-112, [InspireHEP] [DOI].
I. Turk Cakir, et al., "Probing the Anomalous FCNC Couplings at Large Hadron Electron Collider", Adv.High Energy Phys. 2017 (2017), 1572053, [InspireHEP] [DOI] [arXiv:1705.05419].
Y. Zhang, et al., "Single production of the top partner in the T → tZ channel at the LHeC", Phys.Lett.B 768 (2017), 241-247, [InspireHEP] [DOI].
Y. Liu, "Search for single production of vector-like top partners at the Large Hadron Electron Collider", Nucl.Phys.B 923 (2017), 312-323, [InspireHEP] [DOI] [arXiv:1704.02059].
X. Wang, et al., "Searches for the Anomalous FCNC Top-Higgs Couplings with Polarized Electron Beam at the LHeC", Adv.High Energy Phys. 2017 (2017), 4693213, [InspireHEP] [DOI] [arXiv:1703.02691].
H. Bi, et al., "Photoproduction of doubly heavy baryon at the LHeC", Phys.Rev.D 95 (2017) 7, 074020, [InspireHEP] [DOI] [arXiv:1702.07181].
S. S. Biswal, et al., "Probing left-right seesaw models using beam polarization at an $e^+e^-$ collider", Phys.Rev.D 95 (2017) 11, 115031, [InspireHEP] [DOI] [arXiv:1701.08751].
S. Prasad Das, et al., "Light neutral CP-even Higgs boson within Next-to-Minimal Supersymmetric Standard model (NMSSM) at the Large Hadron electron Collider (LHeC)", Phys.Rev.D 96 (2017) 5, 055014, [InspireHEP] [DOI] [arXiv:1612.07241].
J. Hernández-Sánchez, et al., "Prospect for observing a light charged Higgs through the decay $H^{\pm} \to cb$ at the LHeC", PoS CHARGED2016 (2017), 032, [InspireHEP] [DOI] [arXiv:1612.06316].
S. Liu, et al., "Exotic Higgs Decay $h\rightarrow\phi\phi\rightarrow 4b$ at the LHeC", Eur.Phys.J.C 77 (2017) 7, 457, [InspireHEP] [DOI] [arXiv:1608.08458].
A. Ozansoy, et al., "Search for excited spin-3/2 neutrinos at LHeC", Adv.High Energy Phys. 2016 (2016), 1739027, [InspireHEP] [DOI] [arXiv:1607.04437].
F. S. Queiroz, et al., "Comment on “Polarized window for left-right symmetry and a right-handed neutrino at the Large Hadron-Electron Collider”", Phys.Rev.D 93 (2016) 11, 118701, [InspireHEP] [DOI].
S. Mondal, et al., "Reply to “Comment on ‘Polarized window for left-right symmetry and a right-handed neutrino at the Large Hadron-Electron Collider’”", Phys.Rev.D 93 (2016) 11, 118702, [InspireHEP] [DOI].
S. Mondal, et al., "Probing the Heavy Neutrinos of Inverse Seesaw Model at the LHeC", Phys.Rev.D 94 (2016) 3, 033008, [InspireHEP] [DOI] [arXiv:1605.04508].
M. Lindner, et al., "Left-Right Symmetry and Lepton Number Violation at the Large Hadron Electron Collider", JHEP 06 (2016), 140, [InspireHEP] [DOI] [arXiv:1604.08596].
H. Sun, et al., "Exploring the Anomalous Top-Higgs FCNC Couplings at the electron proton colliders", Eur.Phys.J.C 78 (2018) 4, 281, [InspireHEP] [DOI] [arXiv:1602.04670].
S. Mondal, et al., "Polarized window for left-right symmetry and a right-handed neutrino at the Large Hadron-Electron Collider", Phys.Rev.D 93 (2016) 1, 011702, [InspireHEP] [DOI] [arXiv:1510.08632].
J. Hernandez-Sanchez, et al., "Flavor violating signatures of neutral Higgs bosons at the LHeC", PoS DIS2015 (2015), 227, [InspireHEP] [DOI] [arXiv:1509.05491].
C. Yue, et al., "Lepton flavor violating Higgs couplings and single production of the Higgs boson via e$\gamma$ collision", J.Phys.G 42 (2015), 075003, [InspireHEP] [DOI] [arXiv:1505.02209].
S.P. Das, et al., "Flavor violating signatures of lighter and heavier Higgs bosons within the Two Higgs Doublet Model Type-III at the LHeC", Phys.Rev.D 94 (2016) 5, 055003, [InspireHEP] [DOI] [arXiv:1503.01464].
U. Kaya, et al., "Majorana Neutrino and $W_{R}$ at TeV scale $ep$ Colliders", [InspireHEP] [arXiv:1502.04115].
L. Duarte, et al., "Majorana neutrinos production at LHeC in an effective approach", Phys.Rev.D 91 (2015) 5, 053007, [InspireHEP] [DOI] [arXiv:1412.1433].
S. S. Biswal, et al., "Anomalous Triple Gauge Vertices at the Large Hadron-Electron Collider", [InspireHEP] [arXiv:1405.6056].
R. Zhang, et al., "Probing $L$-violating coupling via sbottom resonance production at the LHeC", Mod.Phys.Lett.A 29 (2014) 06, 1450029, [InspireHEP] [DOI] [arXiv:1401.4266].
M. Machado, et al., "Looking at the photoproduction of massive gauge bosons at the LHeC", PoS DIS2013 (2013), 262, [InspireHEP] [DOI] [arXiv:1309.7075].
X. Li, et al., "Single (anti-)top quark production in association with a lightest neutralino at the LHeC", Phys.Rev.D 88 (2013) 1, 014023, [InspireHEP] [DOI] [arXiv:1307.2308].
H. Aksakal, et al., "A search for b(c) quark pdf uncertainties at TeV scale ep collider", [InspireHEP] [arXiv:1306.4764].
I.T. Cakir, et al., "Probing Anomalous HZZ Couplings at the LHeC", Mod.Phys.Lett.A 28 (2013) 31, 1350142, [InspireHEP] [DOI] [arXiv:1304.3616].
S. Kuday, "Resonant Production of Sbottom via RPV Couplings at the LHeC", J.Korean Phys.Soc. 64 (2014), 1783-1787, [InspireHEP] [DOI)] [arXiv:1304.2124].
M. Sahin, "Resonant production of spin-3/2 color octet electron at the LHeC", Acta Phys.Polon.B 45 (2014) 9, 1811, [InspireHEP] [DOI] [arXiv:1302.5747].
I.T. Cakir, et al., "Associated Production of Single Top Quark and W-boson Through Anomalous Couplings at LHeC based $\gamma p$ Colliders", Mod.Phys.Lett.A 29 (2014), 1450021, [InspireHEP] [DOI] [arXiv:1301.2617].
G. Brandt, et al., "Search for Squarks in R-parity violating supersymmetry in ep collisions at HERA", Int.J.Mod.Phys.A 28 (2013), 1330031, [InspireHEP] [DOI].
G. Amar, "Investigations beyond the standard model", [InspireHEP].
A. Senol, "Anomalous Higgs Couplings at the LHeC", Nucl.Phys.B 873 (2013), 293-299, [InspireHEP] [DOI] [arXiv:1212.6869].
C. Brenner Mariotto, et al., "Analysis of the photoproduction of massive gauge bosons at the LHeC", Phys.Rev.D 86 (2012), 033009, [InspireHEP] [DOI] [arXiv:1208.5685].
S. S. Biswal, et al., "Azimuthal Angle Probe of Anomalous $HWW$ Couplings at a High Energy $ep$ Collider", Phys.Rev.Lett. 109 (2012), 261801, [InspireHEP] [DOI] [arXiv:1203.6285].
O. Cakir, et al., "Single Production of Fourth Family b' Quark at the Large Hadron electron Collider", Mod.Phys.Lett.A 25 (2010), 2571-2577, [InspireHEP] [DOI] [arXiv:0912.2041].
M. Sahin, et al., "Search for Scalar Diquarks at the LHeC Based Gamma-Proton Collider", Balk.Phys.Lett. 18 (2010), 024, [InspireHEP] [arXiv:0911.0496].
O. Cakir, et al., "Single Production of Fourth Family t-prime Quarks at LHeC", EPL 88 (2009) 1, 11002, Europhys.Lett. 88 (2009) 1, 11002, [InspireHEP] [DOI] [arXiv:0905.4347].
U. Klein, "New Physics at Large Scales at an LHeC", [InspireHEP].
T. G. Rizzo, "Z-primw Physics at the LHC and the LHeC", [InspireHEP] [arXiv:0808.1906].
T. G. Rizzo, "Z-prime coupling information from the CERN Large Hadron-electron Collider", Phys.Rev.D 77 (2008), 115016, [InspireHEP] [DOI] [arXiv:0804.0081].
E. Perez, "Physics beyond the standard model at LHeC", [InspireHEP] [DOI].
A.T. Tasci, et al., "ep analysis of anomalous interactions with heavy leptons", [InspireHEP] [hep-ph/0608045].
A.T. Alan, et al., "Exotic quark production in $e p$ collisions", Phys.Lett.B 639 (2006), 266-271, [InspireHEP] [DOI] [hep-ph/0511199].

Machine and Experimentation

F. Zimmermann, et al., "Free electron laser driven by a high-energy high-current energy-recovery linac", [InspireHEP] [DOI].
D. Trbojevic, et al., "Multi Pass Energy Recovery Linac Design With a Single Fixed Field Magnet Return Line", [InspireHEP] [DOI].
Z. Nergiz, et al., "Scenarios for LHC/FCC Based Gamma-Proton Colliders", [InspireHEP] [arXiv:1903.06202].
R. Bruce, et al., "Beam Losses, Lifetime and Collimator Hierarchy", [InspireHEP].
S. Alex Bogacz, et al., "An Energy Recovery Linac for the LHeC", [InspireHEP] [arXiv:2206.07678].
E. Nissen, et al., "An analytic approach to emittance growth from the beam-beam effect with applications to the LHeC", , J.Phys.Conf.Ser. 1350 (2019) 1, 012135, [InspireHEP] [DOI)].
C. Quigg, "Dream Machines", Rev.Accel.Sci.Tech. 10 (2019) 01, 3-12, [InspireHEP] [DOI)] [arXiv:1808.06036].
B. Parker, et al., "Fast Track Actively Shielded Nb3Sn IR Quadrupole R&D", [InspireHEP] [DOI].
U. Kaya, et al., "The LHeC Project: e-Ring Revisited", Science 13 (2018), 173-178, [InspireHEP] [DOI)] [arXiv:1710.11157].
S.A. Bogacz, et al., "Novel Lattice Solutions for the LheC", ICFA Beam Dyn.Newslett. 71 (2017), 135-152, [InspireHEP].
A. Nayaz, et al., "Simulation of radiation environment for the LHeC detector", AIP Conf.Proc. 1815 (2017) 1, 060016, [InspireHEP] [DOI].
E. Cruz-Alaniz, et al., "Design of the large hadron electron collider interaction region", Phys.Rev.ST Accel.Beams 18 (2015) 11, 111001, [InspireHEP] [DOI].
A. Bogacz, et al., "LHeC ERL Design and Beam-Dynamics Issues", [InspireHEP] [DOI].
E. Cruz Alaniz, et al., "Tracking Studies in the LHeC Lattice", [InspireHEP] [DOI].
K. Ohmi, et al., "Study of Beam-beam Effects in FCC-he", [InspireHEP] [DOI].
I.T. Cakir, et al., "Search for anomalous $WW\gamma$ and $WWZ$ couplings with polarized $e$-beam at the LHeC", Acta Phys.Polon.B 45 (2014) 10, 1947, [InspireHEP] [DOI] [arXiv:1406.7696].
R.B. Appleby, et al., "The high luminosity interaction region for a ring–ring Large Hadron Electron Collider", J.Phys.G 40 (2013), 125004, [InspireHEP] [DOI].
LHeC Collaboration, P. Kostka, et al., "A new detector for deep inelastic physics", PoS EPS-HEP2013 (2013), 098, [InspireHEP] [DOI] [arXiv:1310.3170].
LHeC Collaboration, P. Kostka, et al., "The LHeC Detector", PoS DIS2013 (2013), 256, [InspireHEP] [DOI] [arXiv:1308.6241].
O. Brüning, "Overview of the LHeC Design Study at CERN", [InspireHEP].
C. Bracco, et al., "Studies for the LHeC Beam Transfer Systems", [InspireHEP].
M. Korostelev, et al., "LHeC IR Optics Design Integrated into the HL-LHC Lattice", [InspireHEP].
F. Zimmermann, "ERL-Based Lepton-Hadron Colliders: eRHIC and LHeC", [InspireHEP].
M. Fitterer, "Design Study of the Large Hadron Electron Collider and a Rapid Cycling Synchrotron as Alternative to the PS Booster Upgrade at CERN", [InspireHEP] [DOI].
LHeC Study Group, A. Polini, et al., "The LHeC Detector Design Concept", PoS ICHEP2012 (2013), 530, [InspireHEP] [DOI].
S. Russenschuck, et al., "Challenges for the Magnet System of LHeC", Conf.Proc.C 1205201 (2012), 1996-1998, [InspireHEP].
J.L. Abelleira, et al., "Final-Focus Optics for the LHeC Electron Beam Line", Conf.Proc.C 1205201 (2012), 1861-1863, [InspireHEP].
L.N.S. Thompson, et al., "Synchrotron Radiation Studies for a Ring-Ring LHeC Interaction Region and Long Straight Section", Conf.Proc.C 1205201 (2012), 1248-1250, [InspireHEP].
L.N.S. Thompson, et al., "Integration with the LHC of Electron Interaction Region Optics for a Ring-ring LHeC", Conf.Proc.C 1205201 (2012), 1239-1241, [InspireHEP].
V. Yakimenko, et al., "Positron Options for the Linac-ring LHeC", Conf.Proc.C 1205201 (2012), 3108-3110, [InspireHEP].
C. Yue, et al., "Photoproduction of the charged top-pions at the LHeC", Commun.Theor.Phys. 58 (2012), 711-717, [InspireHEP] [DOI] [arXiv:1203.3627].
A. Buniatyan, "Very forward/backward detectors at the LHeC", [InspireHEP] [DOI].
A. Polini, et al., "The LHeC central detector", [InspireHEP] [DOI].
F. Zimmermann, "LHeC ERL/Linac-ring option", ICFA Beam Dyn.Newslett. 58 (2012), 86-100, [InspireHEP].
H. Burkhardt, "LHeC ring-ring option", ICFA Beam Dyn.Newslett. 58 (2012), 76-86, [InspireHEP].
D. Tommasini, et al., "Dipole Magnets for the LHeC Ring-Ring Option", IEEE Trans.Appl.Supercond. 22 (2012) 3, 4000203, [InspireHEP] [DOI].
H. Wei, et al., "Probe R-parity violating stop resonance at the LHeC", JHEP 07 (2011), 003, JHEP 02 (2013), 047 (erratum), [InspireHEP] [DOI] [arXiv:1107.4461].
Z. Wen, et al., "The Light MSSM neutral Higgs boson production associated with an electron and a jet at the LHeC", Phys.Rev.D 83 (2011), 055003, [InspireHEP] [DOI] [arXiv:1101.4987].
J. Shen, et al., "Single production of a heavy T-quark in the left-right twin Higgs model at LHeC", Chin.Phys.Lett. 28 (2011), 111203, [InspireHEP] [DOI].
C. Yue, et al., "Single production of the doubly charged Higgs boson via $e\gamma$ collision in the Higgs triplet model", Commun.Theor.Phys. 56 (2011), 709-717, [InspireHEP] [DOI] [arXiv:1010.4633].
H. Liang, et al., "Seesaw Type I and III at the LHeC", JHEP 09 (2010), 023, [InspireHEP] [DOI] [arXiv:1006.5534].
M. Sahin, et al., "Resonant Production of Color Octet Electron at the Lhec", Phys.Lett.B 689 (2010), 172-176, [InspireHEP] [DOI] [arXiv:1001.4505].
G. Azuelos, "Aspects of beyond standard model physics at the LHeC", PoS DIS2010 (2010), 256, [InspireHEP] [DOI].
R. Appleby, et al., "Synchrotron Radiation in the Interaction Region for a Ring-Ring and Linac-Ring LHeC", Conf.Proc.C 110904 (2011), 3718-3720, [InspireHEP].
M. Fitterer, et al., "LHeC Lattice Design", Conf.Proc.C 110904 (2011), 3715-3717, [InspireHEP].
J.L. Abelleira, et al., "Design Status of LHeC Linac-Ring Interaction Region", Conf.Proc.C 110904 (2011), 2796-2798, [InspireHEP].
D. Schulte, et al., "LHeC ERL Design and Beam-dynamics Issues", Conf.Proc.C 110904 (2011), 1120-1122, [InspireHEP].
D. Kayran, et al., "Recirculating Electron Linacs (REL) for LHeC and eRHIC", Conf.Proc.C 110904 (2011), 1099-1101, [InspireHEP].
F.J. Magnin, et al., "Civil Engineering Studies for Major Projects after LHC", Conf.Proc.C 110904 (2011), 1030-1032, [InspireHEP].
R. Appleby, et al., "Interaction Region Design for a Ring-Ring LHeC", Conf.Proc.C 110904 (2011), 3721-3723, [InspireHEP].
M. Klein, "Design Concepts for the Large Hadron Electron Collider", Conf.Proc.C 110904 (2011), 1942-1944, [InspireHEP].
D. Kayran, et al., "Lattice Design for the Future ERL-Based Electron Hadron Colliders eRHIC and LHeC", Conf.Proc.C 110328 (2011), 696-698, [InspireHEP].
D.P. Barber, et al., "The possibility of polarisation in the LHeC ring-ring scenario", J.Phys.Conf.Ser. 295 (2011), 012145, [InspireHEP] [DOI].
LHeC Study Group, F. Haug, et al., "Cryogenic studies for the proposed CERN large hadron electron collider (LHEC)", AIP Conf.Proc. 1434 (2012) 1, 69-77, [InspireHEP] [DOI].
Y. Sun, et al., "Preliminary Study on Emittance Growth in the LHeC Recirculating Linac", Conf.Proc.C 100523 (2010), THPD012, [InspireHEP].
Y. Sun, et al., "Lattice Design for the LHeC Recirculating Linac", Conf.Proc.C 100523 (2010), THPD011, [InspireHEP].
A. Ciftci, et al., "Deflecting Synchrotron Radiation from the Interaction Region of a Linac-Ring LHeC", Conf.Proc.C 100523 (2010), TUPEB043, [InspireHEP].
F. Zimmermann, et al., "Designs for a Linac-Ring LHeC", Conf.Proc.C 100523 (2010), TUPEB039, [InspireHEP].
F. Zimmermann, et al., "Interaction-Region Design Options for a Linac-Ring LHeC", Conf.Proc.C 100523 (2010), TUPEB037, [InspireHEP].
B. Holzer, et al., "Interaction Region Design for a Ring Ring Version of the LHeC Study", Conf.Proc.C 100523 (2010), TUPEB034, [InspireHEP].
B.J. Holzer, "Facility plans for the LHEC", [InspireHEP].
A. Polini, et al., "Detector Design Considerations for the LHeC", [InspireHEP].
J. Skrabacz, "Optimizing cost and minimizing energy loss in the recirculating race-track design of the LHEC Electron LINAC", [InspireHEP].
F.J. Willeke, et al., "A Storage Ring Based Option for the LHeC", Conf.Proc.C 0806233 (2008), WEPP052, [InspireHEP].
H. Burkhardt, "LHeC ring-ring option", [InspireHEP] [DOI].
C. Montag, "Emittance growth due to crab crossing imperfections in electron-ion colliders", Nucl.Instrum.Meth.A 582 (2007), 390-394, [InspireHEP] [DOI].

Accelerator and PERLE

A. Bogacz, et al., "PERLE - Lattice Design and Beam Dynamics Studies", [InspireHEP] [DOI].
PERLE. Powerful energy recovery linac for experiments. Conceptual design report [DOI]
O. Brüning, et al., "Development of an ERL Based TeV Energy ep and eA Collider at CERN", ICFA Beam Dyn.Newslett. 68 (2015), 46-87, [InspireHEP].
An Energy Recovery Linac for the LHeC
E. Jensen, et al., "Plans for an ERL Test Facility at CERN", [InspireHEP].
High-Energy Inelastic e p Scattering at 6-Degrees and 10-Degrees [DOI]
B. Holzer, et al., "Accelerator Challenges of the LHeC Project", [InspireHEP] [DOI].
E. Jensen, et al., "Design Study of an ERL Test Facility at CERN", [InspireHEP] [DOI].
J. Osborne, et al., "Civil Engineering Feasibility Studies for Future Ring Colliders at CERN", [InspireHEP].
A. Valloni, et al., "Strawman Optics Design for the CERN LHeC ERL Test Facility", [InspireHEP].
D. Schulte, et al., "An energy recovery electron accelerator for DIS at the LHC", PoS EPS-HEP2013 (2013), 555, [InspireHEP] [DOI].
F. Zimmermann, ""Colliders or bust"", [InspireHEP] [arXiv:2204.11807].
L.N.S. Thompson, et al., "Interaction Region Optics for the Non-Interacting LHC Proton Beam at the LHeC", Conf.Proc.C 1205201 (2012), 1245-1247, [InspireHEP].
O.S. Brüning, et al., "Update on LHeC Ring-Ring Optics", Conf.Proc.C 1205201 (2012), 1242-1244, [InspireHEP].
PERLE Collaboration, S. Alex Bogacz, et al., "PERLE - ERL Test Facility at Orsay", SciPost Phys.Proc. 8 (2022), 013, [InspireHEP] [DOI].
D. Trbojevic, et al., "Electron Accelerator Lattice Design for LHeC with Permanent Magnets", JACoW IPAC2022 (2022), WEOXGD2, [InspireHEP] [DOI].
Z. Nergiz, et al., "Bright Ångstrom and picometer free electron laser based on the Large Hadron electron Collider energy recovery linac", Phys.Rev.Accel.Beams 24 (2021) 10, 100701, [InspireHEP] [DOI)] [arXiv:2107.13331].
D. Trbojevic, et al., "Permanent Magnets Future Electron Ion Colliders at RHIC and LHeC", JACoW IPAC2021 (2021), TUPAB028, [InspireHEP] [DOI].
B. Holzer, et al., "Accelerator Challenges of the LHeC Project", [InspireHEP] [DOI].
K. André, et al., "Front-to-End Simulations of the Energy Recovery Linac for the LHeC Project", [InspireHEP] [DOI].
R. Costa, et al., "Tracking Complex Re-Circulating Machines with PLACET2", JACoW IPAC2021 (2021), 4197-4200, [InspireHEP] [DOI)].
G. Pérez Segurana, et al., "Construction of self-consistent longitudinal matches in multipass energy recovery linacs", Phys.Rev.Accel.Beams 25 (2022) 2, 021003, [InspireHEP] [DOI)] [arXiv:2111.15372].
A. Bogacz, "The LHeC ERL - Optics and Performance Optimizations", [InspireHEP] [DOI].
B. Hounsell, et al., "Optimisation of the PERLE Injector", [InspireHEP] [DOI].
A. Bogacz, "PERLE - Beam Optics Design", [InspireHEP] [DOI].
F. Méot, et al., "ER@CEBAF, a 7 GeV, 5-Pass, Energy Recovery Experiment", [InspireHEP] [DOI].
A. Bogacz, et al., "ERL17 Workshop, WG2 Summary: Optics, Beam Dynamics and Instrumentation", [InspireHEP] [DOI].
F. Marhauser, et al., "802 MHz ERL Cavity Design and Development", [InspireHEP] [DOI].
Z. Nergiz, et al., "A High-Brillance Angstrom-FEL based on the LHeC", [InspireHEP] [DOI].
B. Terzić, et al., "Long-Term Simulations of Beam-Beam Dynamics on GPUs", [InspireHEP] [DOI].
Y.C. Acar, et al., "Future circular collider based lepton–hadron and photon–hadron colliders: Luminosity and physics", Nucl.Instrum.Meth.A 871 (2017), 47-53, [InspireHEP] [DOI] [arXiv:1608.02190].
E. Cruz Alaniz, "Modelling the effects of high-luminosity optics in the upgrades of the Large Hadron Collider", [InspireHEP] [DOI].
D. Pellegrini, et al., "Beam Dynamics Studies in Recirculating Machines", [InspireHEP] [DOI].
B. Terzić, et al., "High-Fidelity Simulations of Long-Term Beam-Beam Dynamics on GPUs", [InspireHEP] [DOI].
M. Ady, et al., "Monte Carlo simulations of ultra high vacuum and synchrotron radiation for particle accelerators", [InspireHEP] [DOI].
D. Pellegrini, et al., "Beam-dynamics driven design of the LHeC energy-recovery linac", Phys.Rev.ST Accel.Beams 18 (2015) 12, 121004, [InspireHEP] [DOI].
D. Pellegrini, et al., "PLACET2: A Novel Code for Beam Dynamics in Recirculating Machines", [InspireHEP] [DOI].
C. Welsch, "Numerical Optimization of Accelerators within oPAC", [InspireHEP] [DOI].
Y. Hao, "Accelerator Physics in ERL Based Polarized Electron Ion Collider", [InspireHEP] [DOI].
D. Pellegrini, et al., "Single and Multi-bunch End-to-end Tracking in the LHeC", [InspireHEP] [DOI].
L. Thompson, "Beam Dynamics and Interaction Regions for the LHeC and HL-LHC", [InspireHEP].
E. Cruz-Alaniz, et al., "LHeC accelerator development", PoS DIS2014 (2014), 247, [InspireHEP] [DOI].
E. Cruz Alaniz, et al., "LHeC IR Optics Design Integrated into the HL-LHC Lattice", [InspireHEP] [DOI].
J. Luis Abelleira, "Optics Designs of Final-Focus Systems for Future LHC Upgrades", [InspireHEP].
V. Litvinenko, "Novel Technique of Suppressing TBBU in High-energy ERLs", [InspireHEP].
V. N. Litvinenko, et al., "Chromaticity of the lattice and beam stability in energy recovery linacs", Phys.Rev.ST Accel.Beams 15 (2012), 074401, Phys.Rev.ST Accel.Beams 18 (2015) 3, 039901 (erratum), [InspireHEP] [DOI)].
I.R. Bailey, et al., "Novel Designs for Undulator Based Positron Sources", Conf.Proc.C 1205201 (2012), 1485-1487, [InspireHEP].
S. Webb, "Theoretical considerations for coherent electron cooling", [InspireHEP].

Other

P. Yock, "Testable hypotheses by Isaac Newton on particle physics", Phys.Essays 33 (2020) 2, 149-158, [InspireHEP] [DOI].
D. Acosta, et al., "The Potential of a TeV-Scale Muon-Ion Collider", [InspireHEP] [arXiv:2203.06258].
S. Dalla Torre, et al., "Prospects for Electron-Ion Colliders", Springer Proc.Phys. 250 (2020), 509-515, [InspireHEP] [DOI].
A. Caldwell, et al., "The "DIS and Related Subjects" Strategy Document: Fundamental Science from Lepton-Hadron Scattering", [InspireHEP] [arXiv:1812.08110].
A. Levy, et al., "Particle Physics with DIS - on the European Particle Physics Strategy Update", PoS DIS2018 (2018), 201, [InspireHEP] [DOI].
F. Bordry, et al., "Machine Parameters and Projected Luminosity Performance of Proposed Future Colliders at CERN", [InspireHEP] [arXiv:1810.13022].
LHeC/FCC-eh study group, Z. Philippe Zhang, et al., "Energy Frontier Electron-Ion Physics with the LHeC and the FCC-eh", PoS ICHEP2018 (2019), 496, [InspireHEP] [DOI].
M. Kuze, "Energy-Frontier Lepton-Hadron Collisions at CERN: the LHeC and the FCC-eh", Int.J.Mod.Phys.Conf.Ser. 46 (2018), 1860081, [InspireHEP] [DOI] [arXiv:1801.07394].
B. Page, "Exploring the Proton Spin with Di-jets at a Future EIC", PoS DIS2017 (2018), 110, [InspireHEP] [DOI].
R. Bucoveanu, et al., "Precision Measurement of $\sin^2 \theta_w$ at MESA", PoS LL2016 (2016), 061, [InspireHEP] [DOI] [arXiv:1606.09268].
O. Bruning, et al., "Progress on the Large Hadron electron Collider", PoS EPS-HEP2015 (2015), 520, [InspireHEP] [DOI].
R. Venugopalan, "Why we need an Electron-Ion Collider", Annalen Phys. 528 (2016), 131-137, [InspireHEP] [DOI] [arXiv:1507.08128].
LHEC Collaboration, A. Polini, et al., "The Large Hadron electron Collider at CERN", EPJ Web Conf. 73 (2014), 08005, [InspireHEP] [DOI].
LHeC Study Group, B. Mellado, et al., "Topics in the Relation of the LHeC and the LHC", J.Phys.Conf.Ser. 455 (2013), 012019, [InspireHEP] [DOI].
A. M. Stasto, et al., "The Large Hadron - electron Collider at CERN", Nucl.Phys.A 904-905 (2013), 953c-956c, [InspireHEP] [DOI].
N. Armesto, et al., "WG7 Highlights - Future DIS Experiments", PoS DIS2013 (2013), 030, [InspireHEP] [DOI].
O. Brüning, "Overview of the LHEC design study at CERN", PoS DIS2013 (2013), 255, [InspireHEP] [DOI].
R. Heuer, "The LHC and Beyond – Status, Results and Perspectives", Subnucl.Ser. 48 (2013), 199-207, [InspireHEP] [DOI].
S.A. Bogacz, et al., "SAPPHiRE: a Small Gamma-Gamma Higgs Factory", [InspireHEP] [arXiv:1208.2827].
M. Klein, "Perspectives on DIS and the LHeC", [InspireHEP] [DOI].
O. Bruning, "LHeC at CERN", ICFA Beam Dyn.Newslett. 58 (2012), 71-76, [InspireHEP].
R. Heuer, "Whither colliders after the Large Hadron Collider?", Pramana 79 (2012), 993-1002, [InspireHEP] [DOI].

Others

Charged Higgs scalar production in single top mode (and other) at future ep colliders in the minimal supersymmetric standard model [DOI]
Associated slepton - neutralino / chargino production at LEP x CERN LHC [DOI]
LHeC Study Group, O. Bruning, et al., "The LHeC: A lepton-proton collider at CERN using the LHC infrastructure", PoS EPS-HEP2011 (2011), 040, [InspireHEP] [DOI].
R. Heuer, "The LHC and beyond: Past, present and future", [InspireHEP] [DOI].
R. Milner, "Overview of Electron-Ion Collider Initiatives", [InspireHEP].
N.Ya. Ivanov, "How to measure the Charm Density in the Proton at EIC", [InspireHEP] [DOI] [arXiv:1010.5424].
D. Boer, et al., "Probing the linear polarization of gluons in unpolarized hadrons at EIC", [InspireHEP].
LHeC Study Group, M. Klein, et al., "The LHeC conceptual design", PoS ICHEP2010 (2010), 520, [InspireHEP] [DOI].
A. De Roeck, et al., "Future Facilities Summary", [InspireHEP] [arXiv:0910.4753].
A. De Roeck, et al., "From the LHC to Future Colliders", Eur.Phys.J.C 66 (2010), 525-583, [InspireHEP] [DOI] [arXiv:0909.3240].
M. Klein, "The Large Hadron Electron Collider Project", [InspireHEP] [arXiv:0908.2877].
eRHIC and LHeC Collaborations, V. N. Litvinenko, et al., "LHeC and eRHIC", PoS EPS-HEP2009 (2009), 141, [InspireHEP] [DOI].
A. M. Stasto, et al., "QCD at the LHeC", [InspireHEP].
M. Klein, et al., "Prospects for a Large Hadron Electron Collider (LHeC) at the LHC", Conf.Proc.C 0806233 (2008), WEOAG01, [InspireHEP].
H. Karadeniz, et al., "QCD Explorer Based eA and gamma-A Colliders", [InspireHEP] [arXiv:0806.2384].
M. Klein, "A large hadron electron collider at the LHC", [InspireHEP] [DOI].
V. Ptitsyn, "From HERA to Future Electron ion Colliders", Conf.Proc.C 070625 (2007), 1927, [InspireHEP] [DOI].
J. Dainton, "LHeC: The Large Hadron-electron Collider", [InspireHEP] [DOI].
J. Dainton, "LHEC: The Large Hadron Electron Collider", [InspireHEP].

Theses

Search for physics beyond the standard model at particle colliders using machine learning techniques [DOI]
H. Liu, "General Neutrino Interactions, Dark Matter, and Electroweak Phase Transition", [InspireHEP].
A. Hammad, "Search for physics beyond the standard model at particle colliders using machine learning techniques", [InspireHEP].
M. Pia Zurita, "Producción de hadrones en medios nucleares", [InspireHEP].

Related Experiments

EIC
- Science Requirements and Detector Concepts for the Electron-Ion Collider: EIC Yellow Report [DOI]
- Electron Ion Collider: The Next QCD Frontier - Understanding the glue that binds us all [DOI]
- The Electron-Ion Collider: Assessing the Energy Dependence of Key Measurements [DOI]
- An Assessment of U.S.-Based Electron-Ion Collider Science [DOI]
- Electron Ion Collider Conceptual Design Report 2021 [DOI]
HERA
THERA
- TESLA: The superconducting electron positron linear collider with an integrated X-ray laser laboratory. Technical design report. Pt. 6: Appendices. Chapter 2: THERA: Electron proton scattering at s**(1/2) approximately 1-TeV [InspireHEP]
- THERA review [InspireHEP]
- THERA: Electron proton scattering at s**(1/2) = 1-TeV [InspireHEP]
Other eperimental setups
- VHEeP: A very high energy electron–proton collider[DOI]
- Review of Muon-Proton Collider Proposals: Main Parameters
- Physics potential of a muon-proton collider
- [The Potential of a TeV-Scale Muon-Ion Collider](The Potential of a TeV-Scale Muon-Ion Collider)
D. Acosta, et al., "A muon–ion collider at BNL: The future QCD frontier and path to a new energy frontier of μ+μ− colliders", Nucl.Instrum.Meth.A 1027 (2022), 166334, [InspireHEP] [DOI)] [arXiv:2107.02073].
- QCD Explorer Based on LHC and CLIC-1 [CDS]

Further papers

R. Keith Ellis, et al., "Physics Briefing Book : Input for the European Strategy for Particle Physics Update 2020", [InspireHEP] [arXiv:1910.11775].
A. Stasto, "Overview of physics possibilities at future DIS facilities", PoS DIS2019 (2019), 237, [InspireHEP] [DOI].

Classical DIS papers

* []() [[DOI]()]

Name		Name	Last commit message	Last commit date
Latest commit History 33 Commits
README.md		README.md

Provide feedback

Saved searches

Use saved searches to filter your results more quickly

Repository files navigation

A Living Review of Articles on the LHeC

Conceptual Design Reports

Reports with Significant Relevance for LHeC (FCC-eh, LEPxLHC)

Important Reports and Reviews on Related Subjects

Physics

Hard QCD, Hadronic Final State, Heavy-quarks (c,s,b) and Inclusive DIS

Small-x, Diffraction, exclusive processes and further QCD properties

Higgs Physics

Heavy-Ion and Nuclear Physics

Electroweak Physics

Top-quark Physics

Beyond the Standard Model (BSM)

Machine and Experimentation

Accelerator and PERLE

Other

Others

Theses

Related Experiments

Further papers

Classical DIS papers

About

Releases

Packages

LHeC/LHeC-LivingReview

Folders and files

Latest commit

History

Repository files navigation

A Living Review of Articles on the LHeC

Conceptual Design Reports

Reports with Significant Relevance for LHeC (FCC-eh, LEPxLHC)

Important Reports and Reviews on Related Subjects

Physics

Hard QCD, Hadronic Final State, Heavy-quarks (c,s,b) and Inclusive DIS

Small-x, Diffraction, exclusive processes and further QCD properties

Higgs Physics

Heavy-Ion and Nuclear Physics

Electroweak Physics

Top-quark Physics

Beyond the Standard Model (BSM)

Machine and Experimentation

Accelerator and PERLE

Other

Others

Theses

Related Experiments

Further papers

Classical DIS papers

About

Topics

Resources

Stars

Watchers

Forks

Releases

Packages 0

Packages