HE-LHC: The high-energy large hadron collider A Abada, M Abbrescia, SS Abdussalam, I Abdyukhanov, JA Fernandez, ... The European Physical Journal Special Topics 228 (5), 1109-1382, 2019 | 1391* | 2019 |
A facility to Search for Hidden Particles at the CERN SPS: the SHiP physics case S Alekhin, W Altmannshofer, T Asaka, B Batell, F Bezrukov, K Bondarenko, ... Reports on Progress in Physics 79 (12), 124201, 2016 | 946 | 2016 |
A white paper on keV sterile neutrino dark matter R Adhikari, M Agostini, NA Ky, T Araki, M Archidiacono, M Bahr, J Baur, ... Journal of Cosmology and Astroparticle Physics 2017 (01), 025, 2017 | 716 | 2017 |
FCC physics opportunities A Abada, M Abbrescia, SS AbdusSalam, I Abdyukhanov, JA Fernandez, ... The European Physical Journal C 79 (6), 1-161, 2019 | 664 | 2019 |
Neutrinos and collider physics FF Deppisch, PSB Dev, A Pilaftsis New Journal of Physics 17 (7), 075019, 2015 | 615 | 2015 |
Long-lived particles at the energy frontier: the MATHUSLA physics case D Curtin, M Drewes, M McCullough, P Meade, RN Mohapatra, J Shelton, ... Reports on progress in physics 82 (11), 116201, 2019 | 490 | 2019 |
Maximally symmetric two Higgs doublet model with natural standard model alignment PS Bhupal Dev, A Pilaftsis Journal of High Energy Physics 2014 (12), 1-38, 2014 | 342 | 2014 |
The forward physics facility at the high-luminosity LHC JL Feng, F Kling, MH Reno, J Rojo, D Soldin, LA Anchordoqui, J Boyd, ... Journal of Physics G: Nuclear and Particle Physics 50 (3), 030501, 2023 | 278 | 2023 |
TeV scale inverse seesaw model in SO(10) and leptonic nonunitarity effects PSB Dev, RN Mohapatra Physical Review D 81 (1), 013001, 2010 | 269 | 2010 |
Minimal radiative neutrino mass mechanism for inverse seesaw models PSB Dev, A Pilaftsis Physical Review D—Particles, Fields, Gravitation, and Cosmology 86 (11), 113001, 2012 | 265 | 2012 |
anomaly: A possible hint for natural supersymmetry with -parity violation W Altmannshofer, PS Bhupal Dev, A Soni Physical Review D 96 (9), 095010, 2017 | 225 | 2017 |
Neutrinoless double beta decay versus other probes of heavy sterile neutrinos PD Bolton, FF Deppisch, PS Dev Journal of High Energy Physics 2020 (3), 1-56, 2020 | 214 | 2020 |
Flavour covariant transport equations: an application to resonant leptogenesis PSB Dev, P Millington, A Pilaftsis, D Teresi Nuclear Physics B 886, 569-664, 2014 | 214 | 2014 |
Bounds on TeV seesaw models from LHC Higgs data PSB Dev, R Franceschini, RN Mohapatra Physical Review D—Particles, Fields, Gravitation, and Cosmology 86 (9), 093010, 2012 | 187 | 2012 |
New production mechanism for heavy neutrinos at the LHC PSB Dev, A Pilaftsis, U Yang Physical Review Letters 112 (8), 081801, 2014 | 186 | 2014 |
Physics at a 100 TeV pp collider: Higgs and EW symmetry breaking studies R Contino, D Curtin, A Katz, ML Mangano, G Panico, MJ Ramsey-Musolf, ... CERN Yellow Report 3, 255-440, 2016 | 182 | 2016 |
Direct bounds on electroweak scale pseudo-Dirac neutrinos from √s=8 TeV LHC data A Das, PSB Dev, N Okada Physics Letters B 735, 364-370, 2014 | 177 | 2014 |
Determining the C P Properties of the Higgs Boson PSB Dev, A Djouadi, RM Godbole, MM Mühlleitner, SD Rindani Physical Review Letters 100 (5), 051801, 2008 | 177 | 2008 |
Natural TeV-scale left-right seesaw mechanism for neutrinos and experimental tests CH Lee, PSB Dev, RN Mohapatra Physical Review D—Particles, Fields, Gravitation, and Cosmology 88 (9), 093010, 2013 | 172 | 2013 |
Prospects of heavy neutrino searches at future lepton colliders S Banerjee, PSB Dev, A Ibarra, T Mandal, M Mitra Physical Review D 92 (7), 075002, 2015 | 166 | 2015 |