133. Neutrinoless Double Beta Decay from Scalar Leptoquarks: Interplay with Neutrino Mass and Flavor Physics P. S. Bhupal Dev, Srubabati Goswami, Chayan Majumdar, Debashis Pacchar arXiv: 2407.04670 [hep-ph]
132. Tau Tridents at Accelerator Neutrino Facilities Innes Bigaran, P. S. Bhupal Dev, Diego Lopez Gutierrez, Pedro Machado arXiv: 2406.20067 [hep-ph]
131. Pseudo-Dirac Neutrinos and Relic Neutrino Matter Effect on the High-energy Neutrino Flavor Composition P. S. Bhupal Dev, Pedro Machado, Ivan Martinez-Soler arXiv: 2406.18507 [hep-ph]
130. Leptophilic Portals to New Physics at Colliders P. S. Bhupal Dev SciPost Phys. Proc. (2024) [arXiv:2405.06157 [hep-ph]]
129. A Model for Pair Production Limit Cycles in Pulsar Magnetospheres Takuya Okawa, Alex Chen [arXiv: 2402.19436 [astro-ph.HE]]
128. Long-Lived Doubly Charged Scalars in the Left-Right Symmetric Model: Catalyzed Nuclear Fusion and Collider Implications Evgeny Akhmedov, P. S. Bhupal Dev, Sudip Jana, Rabindra Mohapatra Phys. Lett. B 852 (2024) 138616 [arXiv: 2401.15145 [hep-ph]]
127. Slaying Axion-Like Particles via Gravitational Waves and Primordial Black Holes from Supercooled Phase Transition Angela Conaci, Luigi Delle Rose, P. S. Bhupal Dev, Anish Ghoshal [arXiv: 2401.09411 [astro-ph.CO]]
126. Explanation of the 95 GeV γγ and bb excesses in the minimal left-right symmetric model P. S. Bhupal Dev, Rabindra Mohapatra, Yongchao Zhang Phys. Lett. B 849 (2024) 138481 [arXiv: 2312.17733 [hep-ph]]
125. Flavor Matters, but Matter Flavors: Matter Effects on Flavor Composition of Astrophysical Neutrinos P. S. Bhupal Dev, Sudip Jana, Yago Porto [arXiv: 2312.17315 [hep-ph]]
124. New Constraints on Axion-Like Particles from IXPE Polarization Data for Magnetars Ephraim Gau, Fazlollah Hajkarim, Steven Harris, P. S. Bhupal Dev, et al. [arXiv:2312.14153 [hep-ph]].
123. CEPC Technical Design Report — Accelerator Waleed Abdallah et al [arXiv:2312.14363 [physics.acc-ph]].
122. Relic neutrino decay solution to the excess radio background P. S. Bhupal Dev, Pasquale Di Bari, Ivan Martinez-Soler, Rishav Roshan JCAP 04 (2024) 046 [arXiv:2312.03082 [hep-ph]].
121. On the Galactic radio signal from stimulated decay of axion dark matter P. S. Bhupal Dev, Francesc Ferrer, Takuya Okawa JCAP 04 (2024) 045 [arXiv:2311.13653 [hep-ph]].
120. New Physics at Neutron Beam Dump P. S. Bhupal Dev, Bhaskar Dutta, Tao Han, Aparajitha Karthikeyan, Doojin Kim, Hyunyong Kim [arXiv:2311.10078 [hep-ph]].
119. Phenomenology of Lepton Masses and Mixing with Discrete Flavor Symmetries Garv Chauhan, P. S. Bhupal Dev, Janusz Gluza, et al. [arXiv:2310.20681 [hep-ph]].
118. Neutrino mass models at μTRISTAN P. S. Bhupal Dev, Julian Heeck and Anil Thapa, Eur. Phys. J. C 84 (2024) 2, 148 [arXiv:2309.06463 [hep-ph]]
117. Searching for Heavy Leptophilic Z’ from Lepton Colliders to Gravitational Waves Arnab Dasgupta, P. S. Bhupal Dev, Tao Han, Rojalin Padhan, Si Wang, Keping Xie. JHEP 12 (2023) 011 [arXiv:2308.12804 [hep-ph]].
116. Hints of a new leptophilic Higgs sector? Yoav Afik, P. S. Bhupal Dev, Anil Thapa. Phys. Rev. D 109 (2024) 015003 [arXiv:2305.19314 [hep-ph]].
115. First Constraints on the Photon Coupling of Axion-like Particles from Multimessenger Studies of the Neutron Star Merger GW170817. P. S. Bhupal Dev, Jean-Francois Fortin, Steven Harris, Kuver Sinha, Yongchao Zhang. Phys. Rev. Lett. 132 (2024) 10, 101003 [arXiv:2305.01002 [hep-ph]].
114. Anomalous Tau Neutrino Appearance from Light Mediators in Short-Baseline Neutrino Experiments. P. S. Bhupal Dev, Bhaskar Dutta, Tao Han, Doojin Kim. Phys. Lett. B 850 (2024) 138500 [arXiv:2304.02031 [hep-ph]].
113. Neutrino Portal to Freeze-in Dark Matter. P. S. Bhupal Dev. LHEP 2022 (2022) 356.
112. Probing the muon (g-2) anomaly at the LHC in final states with two muons and two taus. Yoav Afik, P. S. Bhupal Dev, Amarjit Soni, Fang Xu. Phys. Lett. B 843 (2023) 138032 [arXiv:2212.06160 [hep-ph]].
111. Probing Pseudo-Dirac Neutrinos with Astrophysical Sources at IceCube. Kiara Carloni, Ivan Martinez-Soler, Carlos Arguelles, K. S. Babu, P. S. Bhupal Dev. Phys. Rev. D 109 (2024) L051702 [arXiv:2212.00737 [astro-ph.HE]].
110. Constraining Lepton Flavor Violating Higgs Couplings at the HL-LHC in the Vector Boson Fusion Channel. Rahool Kumar Barman, P. S. Bhupal Dev, Anil Thapa. Phys. Rev. D 107 (2023) 075018 [arXiv:2210.16287 [hep-ph]].
109. Probing Freeze-in Dark Matter via Heavy Neutrino Portal. Basabendu Barman, P. S. Bhupal Dev, Anish Ghoshal. Phys. Rev. D 108 (2023) 035037 [arXiv:2210.07739 [hep-ph]].
108. A new probe of relic neutrino clustering using cosmogenic neutrinos. Vedran Brdar, P. S. Bhupal Dev, Ryan Plestid, Amarjit Soni. Phys. Lett. B 833 (2022) 137358 [arXiv:2207.02860 [hep-ph]].
107. The 511-CAM Mission: A Pointed 511 keV Gamma-Ray Telescope with a Focal Plane Detector Made of Stacked Transition Edge Sensor Microcalorimeter Arrays. Farzane Shirazi, P. S. Bhupal Dev, et al. J. Astron. Telesc. Instrum. Syst. 9 (2023) 2, 024006 [arXiv:2206.14652 [astro-ph.IM]].
106. Gravitational Wave Pathway to Testable Leptogenesis. Arnab Dasgupta, P. S. Bhupal Dev, Anish Ghoshal, Anupam Mazumdar. Phys. Rev. D 106 (2022) 7, 075027 [arXiv:2206.07032 [hep-ph]].
105. Probes of Heavy Sterile Neutrinos. Patrick Bolton, Frank Deppisch, P. S. Bhupal Dev. Moriond 2022 EW [arXiv:2206.01140 [hep-ph]].
104. Improved stellar limits on a light CP-even scalar. Shyam Balaji, P. S. Bhupal Dev, Joseph Silk, Yongchao Zhang. JCAP 12 (2022) 024 arXiv:2205.01669 [hep-ph].
103. Probing the νR-philic Z’ at DUNE near detectors. Garv Chauhan, P. S. Bhupal Dev, Xun-jie Xu. Phys. Lett. B 841 (2023) 137907 arXiv:2204.11876 [hep-ph].
102. Searches for Baryon Number Violation in Neutrino Experiments: A White Paper. P. S. Bhupal Dev, Lisa Koerner, Shaikh Saad, et al. J. Phys. G: Nucl. Part. Phys. 51 (2024) 033001 [arXiv:2203.08771 [hep-ex]].
101. Discrete Flavor Symmetries and Lepton Masses and Mixings. Garv Chauhan, P. S. Bhupal Dev, et al. Snowmass Summer Study 2022 [arXiv:2203.08105 [hep-ph]].
100. Theories and Experiments for Testable Baryogenesis Mechanisms. Joshua Barrow, P. S. Bhupal Dev, et al. Snowmass Summer Study 2022 [arXiv:2203.07059 [hep-ph]].
99. The Forward Physics Facility at the High-Luminosity LHC. Jonathan Feng, P. S. Bhupal Dev, et al. J. Phys. G: Nucl. Part. Phys. 50 (2023) 3, 030501 [arXiv:2203.05090 [hep-ex]].
98. Neutrino Self-Interactions: A White Paper. Jeffrey Berryman, P. S. Bhupal Dev, et al. Phys. Dark Univ. 42 (2023) 101267 [arXiv:2203.01955 [hep-ph]].
97. Probing neutrino mass models through resonances at neutrino telescopes. K. S. Babu, P. S. Bhupal Dev, Sudip Jana. Int. J. Mod. Phys. A 37 (2022), 2230003 [arXiv:2202.06975 [hep-ph]].
96. Neutrinoless double beta decay via light neutralinos in R-parity violating supersymmetry. Patrick Bolton, Fran Deppisch, P. S. Bhupal Dev. JHEP 03 (2022) 152 [arXiv:2112.12658 [hep-ph]].
95. Searching for new physics from SMEFT and leptoquarks at the P2 experiment Ingolf Bischer, P. S. Bhupal Dev, Werner Rodejohann, Xun-Jie Xu, Yongchao Zhang. Phys. Rev. D 105 (2022) 9, 095016 [arXiv:2112.12051 [hep-ph]].
94. Resonant Leptogenesis, Collider Signals and Neutrinoless Double Beta Decay from Flavor and CP Symmetries. Garv Chauhan, P. S. Bhupal Dev. Nucl. Phys. B 986 (2023) 116058 [arXiv:2112.09710 [hep-ph]].
93. Meeting the Challenges for Relic Neutrino Detection. P. S. Bhupal Dev, Amarjit Soni. PoS EPS-HEP2021 (2022) 265 [arXiv:2112.01424 [hep-ph]].
92. Light scalars in neutron star mergers. P. S. Bhupal Dev, Jean-François Fortin, Steven P. Harris, Kuver Sinha, Yongchao Zhang. JCAP 01 (2022) 01, 006 [arXiv:2111.05852 [hep-ph]].
91. Leptophilic Dark Matter at Linear Colliders. P. S. Bhupal Dev. Proceedings of MG16 [arXiv:2111.03024 [hep-ph]].
90. A model-independent analysis of leptophilic dark matter at future electron-positron colliders in the mono-photon and mono-Z channels. Saumyen Kundu, Atanu Guha, Prasanta Kumar Das, P. S. Bhupal Dev. Phys. Rev. D 107 (2023) 015003 arXiv:2110.06903 [hep-ph].
89. Unveiling hidden physics at the LHC. Oliver Fischer, Bruce Mellado, P. S. Bhupal Dev, et al. Eur. Phys. J. C 82 (2022) 8, 665 [arXiv:2109.06065 [hep-ph]].
88. Leptonic scalars and collider signatures in a UV-complete model. P. S. Bhupal Dev, Bhaskar Dutta, Tathagata Ghosh, Tao Han, Han Qin, Yongchao Zhang. JHEP 03 (2022) 068 [arXiv:2109.04490 [hep-ph]].
87. Hints of Natural Supersymmetry in Flavor Anomalies? P. S. Bhupal Dev, Amarjit Soni, Fang Xu. Phys. Rev. D 106 (2022) 015014 [arXiv:2106.15647 [hep-ph]].
86. Impact of improved energy resolution on DUNE sensitivity to neutrino non-standard interactions. Sabya Sachi Chatterjee, P. S. Bhupal Dev, Pedro Machado. JHEP 08 (2021) 163 [arXiv:2106.04597 [hep-ph]].
85. New interference effects from light gauge bosons in neutrino-electron scattering. P. S. Bhupal Dev, Doojin Kim, Kuver Sinha, Yongchao Zhang. Phys. Rev. D 104 (2021) 7, 075001 [arXiv:2105.09309 [hep-ph]].
84. Probing the minimal U(1)X model at future electron-positron colliders via fermion pair-production channels. Arindam Das, P. S. Bhupal Dev, Yutaka Hosotani, Sanjoy Mandal. Phys. Rev. D 105 (2022) 11, 115030 [arXiv:2104.10902 [hep-ph]].
83. Light, long-lived B−L gauge and Higgs bosons at the DUNE near detector. P. S. Bhupal Dev, Bhaskar Dutta, Kevin Kelly, Rabindra Mohapatra, Yongchao Zhang. JHEP 07 (2021) 166 [arXiv:2104.07681 [hep-ph]].
82. Searching for Z′ bosons at the P2 experiment. P. S. Bhupal Dev, Werner Rodejohann, Xunjie Xu, Yongchao Zhang. JHEP 06 (2021) 039 [arXiv:2103.09067 [hep-ph]].
81. PASSAT at future neutrino experiments: Hybrid beam-dump-helioscope facilities to probe light axionlike particles. P. S. Bhupal Dev, Doojin Kim, Kuver Sinha, Yongchao Zhang. Phys. Rev. D 104 (2021) 3, 035037 [arXiv:2101.08781 [hep-ph]].
80. How dark is the νR-philic dark photon?. Garv Chauhan, Xunjie Xu. JHEP 04 (2021) 003 [arXiv:2012.09980 [hep-ph]].
79. Complementary probe of dark matter blind spots by lepton colliders and gravitational waves. Yan Wang, Chong Sheng Li, Fa Peng Huang. Phys. Rev. D 104 (2021) 5, 053004 [arXiv:2012.03920 [hep-ph]].
78. Bubble wall velocity beyond leading-log approximation in electroweak phase transition. Xiao Wang, Fa Peng Huang, Xinmin Zhang. arXiv:2011.12903 [hep-ph].
77. Radio-frequency Dark Photon Dark Matter across the Sun. Haipeng An, Fa Peng Huang, Jia Liu, Wei Xue. Phys. Rev. Lett. 126 (2021) 18, 181102 [arXiv:2010.15836 [hep-ph]].
76. Energy budget and the gravitational wave spectra beyond the bag model. Xiao Wang, Fa Peng Huang, Xinmin Zhang. Phys. Rev. D 103 (2021) 10, 103520 [arXiv:2010.13770 [astro-ph.CO]].
75. Perturbativity Constraints on U(1)B−L and Left-Right Models. Garv Chauhan, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Springer Proc. Phys. 261 (2021) 401.
74. Common Framework for Inflation, Dark Matter, Baryogenesis and Neutrino Masses in the Scotogenic Model. Debasish Borah, P. S. Bhupal Dev, Abhass Kumar. Springer Proc. Phys. 261 (2021) 281.
73. |ΔB|=2: A State of the Field, and Looking Forward–A brief status report of theoretical and experimental physics opportunities. K. S. Babu, P. S. Bhupal Dev, et al. Proceedings of The Amherst Center for Fundamental Interactions Workshop [arXiv:2010.02299 [hep-ph]].
72. Stellar limits on light CP-even scalar. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. JCAP 05 (2021) 014 [arXiv:2010.01124 [hep-ph]].
71. Unified framework for B-anomalies, muon g−2 and neutrino masses. K. S. Babu, P. S. Bhupal Dev, Sudip Jana, Anil Thapa. JHEP 03 (2021) 179 [arXiv:2009.01771 [hep-ph]].
70. New high-sensitivity searches for neutrons converting into antineutrons and/or sterile neutrons at the HIBEAM/NNBAR experiment at the European Spallation Source. Andrea Addazi, P. S. Bhupal Dev, et al. J. Phys. G 48 (2021) 7, 070501 [arXiv:2006.04907 [physics.ins-det]].
69. Predictive Dirac and Majorana Neutrino Mass Textures from SU(6) Grand Unified Theories. Zackaria Chacko, P. S. Bhupal Dev, Rabindra N. Mohapatra, Anil Thapa. Phys. Rev. D 102 (2020) 3, 035020 [arXiv:2005.05413 [hep-ph]].
68. Revisiting supernova constraints on a light CP-even scalar. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. JCAP 08 (2020) 003 [arXiv:2005.00490 [hep-ph]].
67. Unified explanation of flavor anomalies, radiative neutrino masses, and ANITA anomalous events in a vector leptoquark model. P. S. Bhupal Dev, Rukmani Mohanta, Sudhanwa Patra, Suchismita Sahoo. Phys. Rev. D 102 (2020) 9, 095012 [arXiv:2004.09464 [hep-ph]].
66. Fast radio bursts from axion stars moving through pulsar magnetospheres. James H. Buckley, P. S. Bhupal Dev, Francesc Ferrer, Fa Peng Huang. Phys. Rev. D 103 (2021) 4, 043015 [arXiv:2004.06486 [astro-ph.HE]].
65. Phase transition dynamics and gravitational wave spectra of strong first-order phase transition in supercooled universe. Xiao Wang, Fa Peng Huang, Xinmin Zhang. JCAP 05 (2020) 045 [arXiv:2003.08892 [hep-ph]].
64. Addressing RD(*), RK(*), muon g-2 and ANITA anomalies in a minimal R-parity violating supersymmetric framework. Wolfgang Altmannshofer, P. S. Bhupal Dev, Amarjit Soni, Yicong Sui. Phys. Rev. D 102 (2020) 1, 015031 [arXiv:2002.12910 [hep-ph]].
63. MUonE sensitivity to new physics explanations of the muon anomalous magnetic moment. P. S. Bhupal Dev, Werner Rodejohann, Xun-Jie Xu, Yongchao Zhang. JHEP 05 (2020) 053 [arXiv:2002.04822 [hep-ph]].
62. Vacuum stability in inert higgs doublet model with right-handed neutrinos. Shilpa Jangid, Priyotosh Bandyopadhyay, P. S. Bhupal Dev, Arjun Kumar. JHEP 08 (2020) 154 [arXiv:2001.01764 [hep-ph]].
61. Neutrino nonstandard interactions via light scalars in the Earth, Sun, supernovae, and the early Universe. K. S. Babu, Garv Chauhan, P. S. Bhupal Dev. Phys. Rev. D 101 (2020) 9, 095029 [arXiv:1912.13488 [hep-ph]].
60. Neutrinoless double beta decay versus other probes of heavy sterile neutrinos. Patrick D. Bolton, Frank F. Deppisch, P. S. Bhupal Dev. JHEP 03 (2020) 170 [arXiv:1912.03058 [hep-ph]].
59. Constraints on long-lived light scalars with flavor-changing couplings and the KOTO anomaly. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Phys. Rev. D 101 (2020) 7, 075014 [arXiv:1911.12334 [hep-ph]].
58. Baryogenesis and Leptogenesis. P. S. Bhupal Dev. Springer Proc. Phys. 234 (2019) 301.
57. New mechanism for matter-antimatter asymmetry and connection with dark matter. Arnab Dasgupta, P. S. Bhupal Dev, Yongchao Zhang.. Phys. Rev. D 102 (2020) 5, 055009 [arXiv:1911.03013 [hep-ph]].
56. Leptonic Scalars at the LHC. Andre de Gouvea, P. S. Bhupal Dev, Bhaskar Dutta, Tathagata Ghosh, Tao Han, Yongchao Zhang. JHEP 2007 (2020) 142 [arXiv:1910.01132 [hep-ph]].
55. Gravitational wave and collider signals in complex two-Higgs doublet model with dynamical CP-violation at finite temperature. Xiao Wang, Fa Peng Huang, Xinmin Zhang. Phys. Rev. D 101 (2020) 1, 015015 [arXiv:1909.02978 [hep-ph]].
54. Zee-Burst: A New Probe of Neutrino Nonstandard Interactions at IceCube. K. S. Babu, P. S. Bhupal Dev, Sudip Jana, Yicong Sui. Phys. Rev. Lett. 124 (2020) 4, 041805 [arXiv:1908.02779 [hep-ph]].
53. Gravitational waves triggered by B−L charged hidden scalar and leptogenesis. Ligong Bian, Wei Cheng, Huai-Ke Guo, Yongchao Zhang. Chin. Phys. C 45 (2021) 11, 113104 arXiv:1907.13589 [hep-ph].
52. Non-Standard Interactions in Radiative Neutrino Mass Models. K. S. Babu, P. S. Bhupal Dev, Sudip Jana, Anil Thapa. JHEP 03 (2020) 006 [arXiv:1907.09498 [hep-ph]].
51. New opportunities at the next-generation neutrino experiments I: BSM neutrino physics and dark matter. C. A. Arguelles, Yicong Sui, et al. Rept. Prog. Phys. 83 (2020) 12, 124201 [arXiv:1907.09498 [hep-ph]].
50. Vacuum Stability and Symmetry Breaking in Left-Right Symmetric Model. Garv Chauhan. JHEP 12 (2019) 137 arXiv:1907.07153 [hep-ph].
49. Neutrino Non-Standard Interactions: A Status Report. P. S. Bhupal Dev, K. S. Babu, Peter B. Denton, Pedro A. N. Machado, et al. SciPost Phys. Proc. 2 (2019) 001 [arXiv:1907.00991 [hep-ph]].
48. Long-lived TeV-scale right-handed neutrino production at the LHC in gauged U(1)X model. Arindam Das, P. S. Bhupal Dev, Nobuchika Okada. Phys. Lett. B 799 (2019) 135052 [arXiv:1906.04132 [hep-ph]].
47. Signatures of Supersymmetry in Neutrino Telescopes. P. S. Bhupal Dev. Probing Particle Physics with Neutrino Telescopes 317 (2020), World Scientific [arXiv:1906.02147 [hep-ph]].
46. Gravitational Waves from First-Order Phase Transition in a Simple Axion-Like Particle Model. P. S. Bhupal Dev, Francesc Ferrer, Yiyang Zhang, Yongchao Zhang. JCAP 11 (2019) 006 [arXiv:1905.00891 [hep-ph]].
45. CP Violating Effects in Heavy Neutrino Oscillations: Implications for Colliders and Leptogenesis. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. JHEP 11 (2019) 137 [arXiv:1904.04787 [hep-ph]].
44. Searching for long-lived particles beyond the Standard Model at the Large Hadron Collider. Juliette Alimena, Yongchao Zhang et al. J. Phys. G 47 (2020) 9, 090501 [arXiv:1903.04497 [hep-ex]].
43. Doubly-charged Higgs Boson at Future Electron-Proton Collider. P. S. Bhupal Dev, Sarif Khan, Manimala Mitra and Santosh Kumar Rai. Phys. Rev. D 99, no. 11, 115015 (2019) [arXiv:1903.01431 [hep-ph]].
42. Ameliorating Higgs Induced Flavor Constraints on TeV Scale WR. Rabindra N. Mohapatra, Guanwen Yan, Yongchao Zhang. Nucl. Phys. B 948 (2019) 114764 [arXiv:1902.08601 [hep-ph]].
41. Lepton flavor violation induced by neutral and doubly-charged scalars at future lepton colliders. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. LCWS 2018 Proceedings [arXiv:1902.04773 [hep-ph]].
40. Future Circular Collider : Vol. 4 The High-Energy LHC (HE-LHC). Asmaa Abada, P. S. Bhupal Dev, et al. [FCC Collaboration]. Eur. Phys. J. ST 228, no.5, 1109 (2019).
39. Future Circular Collider : Vol. 3 The Hadron Collider (FCC-hh). Asmaa Abada, P. S. Bhupal Dev, et al. [FCC Collaboration]. Eur. Phys. J. ST 228, no.4, 755 (2019).
38. Future Circular Collider : Vol. 2 The Lepton Collider (FCC-ee). Asmaa Abada, P. S. Bhupal Dev, et al. [FCC Collaboration]. Eur. Phys. J. ST 228, no.2, 261 (2019).
37. Future Circular Collider : Vol. 1 Physics opportunities. Asmaa Abada, P. S. Bhupal Dev, et al. [FCC Collaboration]. Eur. Phys. J. C 79, no.6, 474 (2019).
36. The CLIC Potential for New Physics. Jorge de Blas, P. S. Bhupal Dev, et al. [CLIC Collaboration]. CERN Yellow Rep. Monogr. Vol. 3 (2018) [arXiv:1812.02093 [hep-ph]].
35. CEPC Conceptual Design Report: Volume 2 – Physics & Detector. Joao de Costa, P. S. Bhupal Dev, et al. [CEPC Study Group]. arXiv:1811.10545 [hep-ex].
34. Perturbativity constraints on U(1)B-L and left-right models and implications for heavy gauge boson searches. Garv Chauhan, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. JHEP 1901 (2019), 208 [arXiv:1811.08789 [hep-ph]].
33. Vacuum structure of the left-right symmetric model. P. S. Bhupal Dev, Rabindra N. Mohapatra, Werner Rodejohann, Xun-Jie Xu. JHEP 1902, 154 (2019) [arXiv:1811.06869 [hep-ph]].
32. Lepton flavor violation induced by a neutral scalar at future lepton colliders. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. PoS ICHEP2018 (2019) 645.
31. R-parity Violating Supersymmetric Explanation of the Anomalous Events at ANITA. Jack H. Collins, P. S. Bhupal Dev, Yicong Sui. Phys. Rev. D 99 (2019), 043009 [arXiv:1810.08479 [hep-ph]].
30. TeV Scale Leptogenesis, Inflaton Dark Matter and Neutrino Mass in Scotogenic Model. Debasish Borah, P. S. Bhupal Dev, Abhass Kumar. Phys. Rev. D 99 (2019), 055012 [arXiv:1810.03645 [hep-ph]].
29. Model-independent Astrophysical Constraints on Leptophilic Dark Matter in the Framework of Tsallis Statistics. Atanu Guha, P. S. Bhupal Dev, Prasanta Kumar Das. JCAP 1902 (2019), 032 [arXiv:1810.00399 [hep-ph]].
28. Displaced vertex signatures of doubly charged scalars in the type-II seesaw and its left-right extensions. P. S. Bhupal Dev, Yongchao Zhang. JHEP 1810 (2018), 199 [arXiv:1808.00943 [hep-ph]].
27. Dark Matter Clusters and Time Correlations in Direct Detection Experiments. Shmuel Nussinov, Yongchao Zhang. JHEP 2003 (2020), 133 [arXiv:1807.00846 [hep-ph]].
26. Doubly-Charged Scalars in the Type-II Seesaw Mechanism: Fundamental Symmetry Tests and High-Energy Searches. P. S. Bhupal Dev, Michael J. Ramsey-Musolf, Yongchao Zhang. Phys. Rev. D 98 (2018), 055013 [arXiv:1806.08499 [hep-ph]].
25. Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case. David Curtin, P. S. Bhupal Dev, et al. Rept. Prog. Phys. 82 (2019) 11, 116201 [arXiv:1806.07396 [hep-ph]].
24. A Combined Astrophysical and Dark Matter Interpretation of the IceCube HESE and Throughgoing Muon Events. Yicong Sui, P. S. Bhupal Dev. JCAP 1807 (2018), 020 [arXiv:1804.04919 [hep-ph]].
23. Probing TeV scale origin of neutrino mass at lepton colliders. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Phys. Rev. D 98 (2018), 075028 [arXiv:1803.11167 [hep-ph]].
22. Prospects of type-II seesaw models at future colliders in light of the DAMPE e+e– excess. Yicong Sui, Yongchao Zhang. Phys. Rev. D 97 (2018), 095002 [arXiv:1712.03642 [hep-ph]].
21. A simple testable model of baryon number violation: Baryogenesis, dark matter, n-nbar oscillation and collider signals. Rouzbeh Allahverdi, P. S. Bhupal Dev, Bhaskar Dutta. Phys. Lett. B 779 (2018) 262 [arXiv:1712.02713 [hep-ph]].
20. Lepton Flavor Violation Induced by a Neutral Scalar at Future Lepton Colliders. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Phys. Rev. Lett. 120 (2018), 221804 [arXiv:1711.08430 [hep-ph]].
19. Leptogenesis constraints on B−L breaking Higgs boson in TeV scale seesaw models. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. JHEP 1803 (2018), 122 [arXiv:1711.07634 [hep-ph]].
18. Probing Leptogenesis. Eung Jin Chun, Gorazd Cvetič, P. S. Bhupal Dev, et al.. Int. J. Mod. Phys. A 33 (2018), 1842005 [arXiv:1711.02865 [hep-ph]].
17. Resonant enhancement in leptogenesis. P. S. Bhupal Dev, Mathias Garny, Juraj Klaric, Peter Millington, Daniele Teresi. Int. J. Mod. Phys. A 33 (2018), 1842003 [arXiv:1711.02863 [hep-ph]].
16. Flavor effects in leptogenesis. P. S. Bhupal Dev, Pasquale Di Bari, Bjorn Garbrecht, Stéphane Lavignac, Peter Millington, Daniele Teresi. Int. J. Mod. Phys. A 33 (2018), 1842001 [arXiv:1711.02861 [hep-ph]].
15. LHC-13 and Neutrinos. P. S. Bhupal Dev. PoS NEUTEL2017 (2018) 039.
14. Same Sign versus Opposite Sign Dileptons as a Probe of Low Scale Seesaw Mechanisms. Arindam Das, P. S. Bhupal Dev, Rabindra N. Mohapatra. Phys. Rev. D 97 (2018), 015018. [arXiv:1709.06553 [hep-ph]].
13. Right-handed neutrino dark matter in left-right symmetric models. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. J. Phys. Conf. Ser. 873 (2017), 012029.
12. Long-lived Light Scalars at the LHC. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Acta Phys. Polon. B 48 (2017) 969.
11. RD(*) anomaly: A possible hint for natural supersymmetry with R-parity violation. Wolfgang Altmannshofer, P. S. Bhupal Dev, Amarjit Soni. Phys. Rev. D 96 (2017), 095010 [arXiv:1704.06659 [hep-ph]].
10. Constraining Sterile Neutrinos from Precision Higgs Data. Arindam Das, P. S. Bhupal Dev, C.S. Kim. Phys. Rev. D 95 (2017), 115013 [arXiv:1704.00880 [hep-ph]].
9. Natural Alignment in the Two Higgs Doublet Model. P. S. Bhupal Dev, Apostolos Pilaftsis. J. Phys. Conf. Ser. 873 (2017), 012008 [arXiv:1703.05730 [hep-ph]].
8. Long Lived Light Scalars as Probe of Low Scale Seesaw Models. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Nucl. Phys. B 923 (2017) 179 [arXiv:1703.02471 [hep-ph]].
7. Naturalness in testable type II seesaw scenarios. P. S. Bhupal Dev, Clara Miralles Vila, Werner Rodejohann. Nucl. Phys. B 921 (2017) 436 [arXiv:1703.00828 [hep-ph]].
6. Probing left-right seesaw models using beam polarization at an e+e– collider. Sudhansu S. Biswal, P. S. Bhupal Dev. Phys. Rev. D 95 (2017), 115031 [arXiv:1701.08751 [hep-ph]].
5. Displaced photon signal from a possible light scalar in minimal left-right seesaw model. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Phys. Rev. D 95 (2017), 115001 [arXiv:1612.09587 [hep-ph]].
4. Testing Neutrino Mass Models at the LHC and beyond. P. S. Bhupal Dev. PoS ICHEP2016 (2016) 487 [arXiv:1612.08209 [hep-ph]].
3. Naturalness, Vacuum Stability and Leptogenesis in the Minimal Seesaw Model. Gulab Bambhaniya, P. S. Bhupal Dev, Srubabati Goswami, Subrata Khan, Werner Rodejohann. Phys. Rev. D 95 (2017), 095016 [arXiv:1611.03827 [hep-ph]].
2. Heavy right-handed neutrino dark matter in left-right models. P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang. Mod. Phys. Lett. A 32 (2017) 1740007 [arXiv:1610.05738 [hep-ph]].
1. Gravitational waves as a new probe of Bose–Einstein condensate Dark Matter. P. S. Bhupal Dev, Manfred Lindner, Sebastian Ohmer. Phys. Lett. B 773 (2017) 219 [arXiv:1609.03939 [hep-ph]]. |