Publications 2020

  1. Polynomial scaling of the quantum approximate optimization algorithm for ground-state preparation of the fully connected $p$-spin ferromagnet in a transverse field Wauters, Matteo M., Mbeng, Glen B., Santoro, Giuseppe E. et al., 2020, Phys. Rev. A, 102, 062404 - ArXiv: 2003.07419
  2. Quantum frequency locking and downconversion in a driven qubit-cavity system Nathan, Frederik, Refael, Gil, Rudner, Mark S. et al., 2020, Phys. Rev. Research, 2, 043411 - ArXiv: 2003.05648
  3. Disintegration and expansion of wormholes I.D. Novikov, D.I. Novikov, S. V. Repin et al., 2020, Physical Review D, 102 - ArXiv: 2012.13788
  4. Exploring helical phases of matter in bosonic ladders Haller, Andreas, Matsoukas-Roubeas, Apollonas S., Pan, Yueting et al., 2020, Phys. Rev. Research, 2, 043433 - ArXiv: 2010.02740
  5. Radiogenic Heating and Its Influence on Rocky Planet Dynamos and Habitability Nimmo, Francis, Primack, Joel, Faber, S. M. et al., 2020, ApJ, 903, L37 - ArXiv: 2011.04791
  6. Black Hole Mergers from Hierarchical Triples in Dense Star Clusters Martinez, Miguel A. S., Fragione, Giacomo, Kremer, Kyle et al., 2020, ApJ, 903, 67 - ArXiv: 2009.08468
  7. Zero Net Flux MRI Turbulence in Disks: Sustenance Scheme and Magnetic Prandtl Number Dependence Mamatsashvili, George, Chagelishvili, George, Pessah, Martin E. et al., 2020, ApJ, 904, 47 - ArXiv: 2009.14736
  8. Double-peaked Balmer Emission Indicating Prompt Accretion Disk Formation in an X-Ray Faint Tidal Disruption Event Hung, Tiara, Foley, Ryan J., Ramirez-Ruiz, Enrico et al., 2020, ApJ, 903, 31 - ArXiv: 2003.09427
  9. Bacteria solve the problem of crowding by moving slowly O. J. Meacock, A. Doostmohammadi, K. R. Foster et al., 2020, Nature Physics - ArXiv: 2008.07915
  10. Mesoscale modelling of polymer aggregate digestion Javor K. Novev, Amin Doostmohammadi, Andreas Zöttl et al., 2020, Current Research in Food Science, 3, 122--133 - ArXiv: 1911.07510
  11. Binding self-propelled topological defects in active turbulence Thijssen, Kristian, Doostmohammadi, Amin, 2020, Physical Review Research, 2, 042008 - ArXiv: 2007.13443
  12. LB-1 Is Inconsistent with the X-Ray Source Population and Pulsar-Black Hole Binary Searches in the Milky Way Safarzadeh, Mohammadtaher, Ramirez-Ruiz, Enrico, Kilpatrick, Charles et al., 2020, ApJ, 901, 116 - ArXiv: 1912.10456
  13. On the Maximum Stellar Rotation to form a Black Hole without an Accompanying Luminous Transient Murguia-Berthier, Ariadna, Batta, Aldo, Janiuk, Agnieszka et al., 2020, ApJ, 901, L24 - ArXiv: 2005.10212
  14. Constraining delay time distribution of binary neutron star mergers from host galaxy properties McCarthy, Kevin S., Zheng, Zheng, Ramirez-Ruiz, Enrico et al., 2020, MNRAS, 499, 5220-5229 - ArXiv: 2007.15024
  15. Equation of State Constraints from Nuclear Physics, Neutron Star Masses, and Future Moment of Inertia Measurements Greif, S. K., Hebeler, K., Lattimer, J. M. et al., 2020, ApJ, 901, 155 - ArXiv: 2005.14164
  16. Flow States and Transitions of an Active Nematic in a Three-Dimensional Channel Ch, ragiri, Santhan, Doostmohammadi, Amin et al., 2020, Phys. Rev. Lett., 125, 148002 - ArXiv: 2007.05263
  17. Contrasting lattice geometry dependent versus independent quantities: Ramifications for Berry curvature, energy gaps, and dynamics Simon, Steven H., Rudner, Mark S., 2020, Phys. Rev. B, 102, 165148 - ArXiv: 2007.15008
  18. The Art of Modeling Stellar Mergers and the Case of the B[e] Supergiant R4 in the Small Magellanic Cloud Wu, Samantha, Everson, Rosa Wallace, Schneider, Fabian R. N. et al., 2020, ApJ, 901, 44 - ArXiv: 2006.01940
  19. Does GW190425 Require an Alternative Formation Pathway than a Fast-merging Channel? Safarzadeh, Mohammadtaher, Ramirez-Ruiz, Enrico, Berger, Edo et al., 2020, ApJ, 900, 13 - ArXiv: 2001.04502
  20. Chandra Observations of Candidate Subparsec Binary Supermassive Black Holes Saade, M. Lynne, Stern, Daniel, Brightman, Murray et al., 2020, ApJ, 900, 148 - ArXiv: 2001.08870
  21. The dependence of episodic accretion on eccentricity during the formation of binary stars Kuruwita, Rajika L., Federrath, Christoph, Haugbølle, Troels et al., 2020, A&A, 641, A59 - ArXiv: 2004.07523
  22. Wormholes with entrances close to each other Kardashev, N. S., Novikov, I. D., Repin, S. V. et al., 2020, Physics Uspekhi, 63, 617-621
  23. Circumbinary Disks: Accretion and Torque as a Function of Mass Ratio and Disk Viscosity Duffell, Paul C., D'Orazio, Daniel, Derdzinski, Andrea et al., 2020, ApJ, 901, 25 - ArXiv: 1911.05506
  24. A possible universal role for {mRNA} secondary structure in bacterial translation revealed using a synthetic operon Yonatan Chemla, Michael Peeri, Mathias Luidor Heltberg et al., 2020, Nature Communications, 11
  25. Universal Lindblad equation for open quantum systems Nathan, Frederik, Rudner, Mark S., 2020, Phys. Rev. B, 102, 115109 - ArXiv: 2004.01469
  26. Winds in Star Clusters Drive Kolmogorov Turbulence Gallegos-Garcia, Monica, Burkhart, Blakesley, Rosen, Anna L. et al., 2020, ApJ, 899, L30 - ArXiv: 2006.14626
  27. Common Envelope Wind Tunnel: Range of Applicability and Self-similarity in Realistic Stellar Envelopes Everson, Rosa Wallace, MacLeod, Morgan, De, Soumi et al., 2020, ApJ, 899, 77 - ArXiv: 2006.07471
  28. Searching for low mass dark matter via phonon creation in superfluid He 4 Baym, Gordon, Beck, D. H., Filippini, Jeffrey P. et al., 2020, Phys. Rev. D, 102, 035014 - ArXiv: 2005.08824
  29. Active inter-cellular forces in collective cell motility Guanming Zhang, Romain Mueller, Amin Doostmohammadi et al., 2020, Journal of The Royal Society Interface, 17, 20200312 - ArXiv: 2005.13087
  30. Have hierarchical three-body mergers been detected by LIGO/Virgo? Veske, Doğa, Márka, Zsuzsa, Sullivan, Andrew G. et al., 2020, MNRAS, 498, L46-L52 - ArXiv: 2002.12346
  31. Carbon star formation as seen through the non-monotonic initial-final mass relation Marigo, Paola, Cummings, Jeffrey D., Curtis, Jason Lee et al., 2020, Nature Astronomy, 4, 1102-1110 - ArXiv: 2007.04163
  32. Broad-line type Ic SN 2020bvc. Signatures of an off-axis gamma-ray burst afterglow Izzo, L., Auchettl, K., Hjorth, J. et al., 2020, A&A, 639, L11 - ArXiv: 2004.05941
  33. Common Envelope Wind Tunnel: The Effects of Binary Mass Ratio and Implications for the Accretion-driven Growth of LIGO Binary Black Holes De, Soumi, MacLeod, Morgan, Everson, Rosa Wallace et al., 2020, ApJ, 897, 130 - ArXiv: 1910.13333
  34. Topological transition of a non-Markovian dissipative quantum walk Ricottone, A., Rudner, M. S., Coish, W. A. et al., 2020, Phys. Rev. A, 102, 012215 - ArXiv: 2003.00350
  35. Testing the relativistic Doppler boost hypothesis for the binary candidate quasar PG1302-102 with multiband Swift data Xin, Chengcheng, Charisi, Maria, Haiman, Zoltán et al., 2020, MNRAS, 496, 1683-1696 - ArXiv: 1907.11246
  36. Single-single gravitational-wave captures in globular clusters: Eccentric deci-Hertz sources observable by DECIGO and Tian-Qin Samsing, Johan, D'Orazio, Daniel J., Kremer, Kyle et al., 2020, Phys. Rev. D, 101, 123010 - ArXiv: 1907.11231
  37. Dust settling instability in protoplanetary discs Krapp, Leonardo, Youdin, Andrew N., Kratter, Kaitlin M. et al., 2020, MNRAS, 497, 2715-2729 - ArXiv: 2004.04590
  38. The Effects of Metallicity and Abundance Pattern of the ISM on Supernova Feedback Karpov, Platon I., Martizzi, Davide, Macias, Phillip et al., 2020, ApJ, 896, 66 - ArXiv: 2004.10974
  39. Reaching the quantum Hall regime with rotating Rydberg-dressed atoms Burrello, Michele, Lesanovsky, Igor, Trombettoni, Andrea et al., 2020, Phys. Rev. Research, 2, 023290 - ArXiv: 2002.05448
  40. Constraining Black Hole Populations in Globular Clusters Using Microlensing: Application to Omega Centauri Zaris, John, Veske, Doğa, Samsing, Johan et al., 2020, ApJ, 894, L9 - ArXiv: 1912.05701
  41. A Trend in the Effective Spin Distribution of LIGO Binary Black Holes with Mass Safarzadeh, Mohammadtaher, Farr, Will M., Ramirez-Ruiz, Enrico et al., 2020, ApJ, 894, 129 - ArXiv: 2001.06490
  42. Elastic properties of phases with nonspherical nuclei in dense matter Pethick, C. J., Zhang, Zhao-Wen, Kobyakov, D. N. et al., 2020, Phys. Rev. C, 101, 055802 - ArXiv: 2003.13430
  43. Spikey: self-lensing flares from eccentric SMBH binaries Hu, Betty X., D'Orazio, Daniel J., Haiman, Zoltán et al., 2020, MNRAS, 495, 4061-4070 - ArXiv: 1910.05348
  44. The 2020 motile active matter roadmap Gompper, Gerhard, Winkler, Rol, G. et al., 2020, Journal of Physics Condensed Matter, 32, 193001 - ArXiv: 1912.06710
  45. Band structure engineering and non-equilibrium dynamics in Floquet topological insulators Mark S. Rudner, Netanel H. Lindner, 2020, Nature Reviews Physics, 2, 229--244
  46. Low-mass planet migration in three-dimensional wind-driven inviscid discs: a negative corotation torque McNally, Colin P., Nelson, Richard P., Paardekooper, Sijme-Jan et al., 2020, MNRAS, 493, 4382-4399 - ArXiv: 2002.11161
  47. Repeated gravitational lensing of gravitational waves in hierarchical black hole triples D'Orazio, Daniel J., Loeb, Abraham, 2020, Phys. Rev. D, 101, 083031 - ArXiv: 1910.02966
  48. Polar jets of swimming bacteria condensed by a patterned liquid crystal Turiv, Taras, Koizumi, Runa, Thijssen, Kristian et al., 2020, Nature Physics, 16, 481-487 - ArXiv: 2001.05622
  49. The Stars in M15 Were Born with the r-process Kirby, Evan N., Duggan, Gina, Ramirez-Ruiz, Enrico et al., 2020, ApJ, 891, L13 - ArXiv: 2002.09495
  50. Binary-binary scattering in the secular limit Hamers, Adrian S., Samsing, Johan, 2020, MNRAS, 494, 850-867 - ArXiv: 2002.04950
  51. Updated parameter estimates for GW190425 using astrophysical arguments and implications for the electromagnetic counterpart Foley, Ryan J., Coulter, David A., Kilpatrick, Charles D. et al., 2020, MNRAS, 494, 190-198 - ArXiv: 2002.00956
  52. LISA and the Existence of a Fast-merging Double Neutron Star Formation Channel Andrews, Jeff J., Breivik, Katelyn, Pankow, Chris et al., 2020, ApJ, 892, L9 - ArXiv: 1910.13436
  53. Nagaoka ferromagnetism observed in a quantum dot plaquette J. P. Dehollain, U. Mukhopadhyay, V. P. Michal et al., 2020, Nature, 579, 528--533 - ArXiv: 1904.05680
  54. Active nematics with anisotropic friction: the decisive role of the flow aligning parameter Thijssen, Kristian, Metselaar, Luuk, Yeomans, Julia M. et al., 2020, Soft Matter, 16, 2065-2074 - ArXiv: 1910.00331
  55. Activity Induced Nematic Order in Isotropic Liquid Crystals Santhosh, Sreejith, Nejad, Mehrana R., Doostmohammadi, Amin et al., 2020, Journal of Statistical Physics, 180, 699-709 - ArXiv: 1912.05201
  56. Active matter in a viscoelastic environment Plan, Emmanuel L. C. M., VI, Yeomans, Julia M., Doostmohammadi, Amin et al., 2020, Physical Review Fluids, 5, 023102 - ArXiv: 2001.02331
  57. Modelling gas evacuation mechanisms in present-day globular clusters: stellar winds from evolved stars and pulsar heating Naiman, J. P., Soares-Furtado, M., Ramirez-Ruiz, E. et al., 2020, MNRAS, 491, 4602-4614 - ArXiv: 1310.8301
  58. Long Baseline Observations of the HD 100546 Protoplanetary Disk with ALMA Pérez, Sebastián, Casassus, Simon, Hales, Antonio et al., 2020, ApJ, 889, L24 - ArXiv: 1906.06305
  59. A Hidden Friend for the Galactic Center Black Hole, Sgr A* Naoz, Smadar, Will, Clifford M., Ramirez-Ruiz, Enrico et al., 2020, ApJ, 888, L8 - ArXiv: 1912.04910
  60. Detecting gravitational self-lensing from stellar-mass binaries composed of black holes or neutron stars D'Orazio, Daniel J., Di Stefano, Rosanne, 2020, MNRAS, 491, 1506-1517 - ArXiv: 1906.11149
  61. Thermal Evolution of Neo-neutron Stars. I. Envelopes, Eddington Luminosity Phase, and Implications for GW170817 Beznogov, Mikhail V., Page, Dany, Ramirez-Ruiz, Enrico et al., 2020, ApJ, 888, 97 - ArXiv: 1908.04888
  62. FCNC-free multi-Higgs-doublet models from broken family symmetries de Medeiros Varzielas, Ivo, Talbert, Jim, 2020, Phys. Lett. B, 800, 135091 - ArXiv: 1908.10979
  63. Combined analysis of AMS-02 (Li,Be,B)/C, N/O, 3He, and 4He data Weinrich, Nathanael, Génolini, Yoann, Boudaud, Mathieu et al., 2020, Chinese Astron. Astrophys., 639, A131 - ArXiv: 2002.11406
  64. Galactic halo size in the light of recent AMS-02 data Weinrich, N., Boudaud, M., Derome, L. et al., 2020, Chinese Astron. Astrophys., 639, A74 - ArXiv: 2004.00441
  65. Neutrino emission characteristics of black hole formation in three-dimensional simulations of stellar collapse Walk, Laurie, Tamborra, Irene, Janka, Hans-Thomas et al., 2020, Phys. Rev. D, 101, 123013 - ArXiv: 1910.12971
  66. Grand Unified Neutrino Spectrum at Earth: Sources and Spectral Components Vitagliano, Edoardo, Tamborra, Irene, Raffelt, Georg et al., 2020, Rev. Mod. Phys., 92, 045006 - ArXiv: 1910.11878
  67. Traintrack Calabi-Yaus from Twistor Geometry Vergu, Cristian, Volk, Matthias, 2020, JHEP, 07, 160 - ArXiv: 2005.08771
  68. Lifting the core-collapse supernova bounds on keV-mass sterile neutrinos Suliga, Anna M., Tamborra, Irene, Wu, Meng-Ru et al., 2020, JCAP, 08, 018 - ArXiv: 2004.11389
  69. Neutrino propagation hinders fast pairwise flavor conversions Shalgar, Shashank, Padilla-Gay, Ian, Tamborra, Irene et al., 2020, JCAP, 06, 048 - ArXiv: 1911.09110
  70. Reinforcement Learning Decoders for Fault-Tolerant Quantum Computation Ryan Sweke, Markus Kesselring, Evert van Nieuwenburg et al., 2020, Machine Learning: Science and Technology - ArXiv: 1810.07207
  71. Neutrino observatory based on archaeological lead Pattavina, Luca, Ferreiro Iachellini, Nahuel, Tamborra, Irene et al., 2020, Phys. Rev. D, 102, 063001 - ArXiv: 2004.06936
  72. A Novel Algorithm for Nested Summation and Hypergeometric Expansions McLeod, Andrew J., Munch, Henrik, Papathanasiou, Georgios et al., 2020, JHEP, 11, 122 - ArXiv: 2005.05612
  73. Comparison of the Planck 2018 CMB polarization maps in the BICEP2/Keck region Liu, Hao, Creswell, James, Naselsky, Pavel et al., 2020, JCAP, 06, 023 - ArXiv: 2005.03170
  74. Effective Field Theories of Post-Newtonian Gravity: A comprehensive review Levi, Michèle, 2020, Rept. Prog. Phys., 83, 075901 - ArXiv: 1807.01699
  75. Revisiting the distance to the nearest ultrahigh energy cosmic ray source: Effects of extragalactic magnetic fields Lang, Rodrigo Guedes, Taylor, Andrew M., Ahlers, Markus et al., 2020, Phys. Rev. D, 102, 063012 - ArXiv: 2005.14275
  76. From Hagedorn to Lee-Yang: partition functions of $ \mathcal{N} $ = 4 SYM theory at finite N Kristensson, Alex, er T., Wilhelm, Matthias et al., 2020, JHEP, 10, 006 - ArXiv: 2005.06480
  77. Schwarzschild-Tangherlini Metric from Scattering Amplitudes Jakobsen, Gustav Uhre, 2020, Phys. Rev. D, 102, 104065 - ArXiv: 2006.01734
  78. The Geometric Standard Model Effective Field Theory Helset, Andreas, Martin, Adam, Trott, Michael et al., 2020, JHEP, 03, 163 - ArXiv: 2001.01453
  79. Baryon Number, Lepton Number, and Operator Dimension in the SMEFT with Flavor Symmetries Helset, Andreas, Kobach, Andrew, 2020, Phys. Lett. B, 800, 135132 - ArXiv: 1909.05853
  80. Exact SMEFT formulation and expansion to $\mathcal{O}(v^4/\Lambda^4)$ Hays, Chris, Helset, Andreas, Martin, Adam et al., 2020, JHEP, 11, 087 - ArXiv: 2007.00565
  81. MeV-scale reheating temperature and cosmological production of light sterile neutrinos Hasegawa, Takuya, Hiroshima, Nagisa, Kohri, Kazunori et al., 2020, JCAP, 08, 015 - ArXiv: 2003.13302
  82. Topology and Broken Symmetry in Floquet Systems Harper, Fenner, Roy, Rahul, Rudner, Mark S. et al., 2020, Ann. Rev. Cond. Matt. Phys., 11, 345-368 - ArXiv: 1905.01317
  83. The double copy for heavy particles Haddad, Kays, Helset, Andreas, 2020, Phys. Rev. Lett., 125, 181603 - ArXiv: 2005.13897
  84. Exponentially long lifetime of universal quasi-steady states in topological Floquet pumps Gulden, Tobias, Berg, Erez, Rudner, Mark S. et al., 2020, SciPost Phys., 9, 015 - ArXiv: 1901.08385
  85. A quantum framework for AdS/dCFT through fuzzy spherical harmonics on S$^{4}$ Gimenez-Grau, Aleix, Kristjansen, Charlotte, Volk, Matthias et al., 2020, JHEP, 04, 132 - ArXiv: 1912.02468
  86. Revisiting primordial black hole capture into neutron stars Génolini, Yoann, Serpico, Pasquale, Tinyakov, Peter et al., 2020, Phys. Rev. D, 102, 083004 - ArXiv: 2006.16975
  87. Fast neutrino flavor conversion, ejecta properties, and nucleosynthesis in newly-formed hypermassive remnants of neutron-star mergers George, Manu, Wu, Meng-Ru, Tamborra, Irene et al., 2020, Phys. Rev. D, 102, 103015 - ArXiv: 2009.04046
  88. Second-order Post-Minkowskian scattering in arbitrary dimensions Cristofoli, Andrea, Damgaard, Poul H., Di Vecchia, Paolo et al., 2020, JHEP, 07, 122 - ArXiv: 2003.10274
  89. Gravitational shock waves and scattering amplitudes Cristofoli, Andrea, 2020, JHEP, 11, 160 - ArXiv: 2006.08283
  90. Statistics of CMB polarization angles Creswell, James, Dachlythra, Nadia, Liu, Hao et al., 2020, JCAP, 02, 001 - ArXiv: 2001.01757
  91. Ward Identities for the Standard Model Effective Field Theory Corbett, Tyler, Helset, Andreas, Trott, Michael et al., 2020, Phys. Rev. D, 101, 013005 - ArXiv: 1909.08470
  92. The Steinmann Cluster Bootstrap for $N$ = 4 Super Yang-Mills Amplitudes Caron-Huot, Simon, Dixon, Lance J., Drummond, James M. et al., 2020, PoS, CORFU2019, 003 - ArXiv: 2005.06735
  93. Using high-energy neutrinos as cosmic magnetometers Bustamante, Mauricio, Tamborra, Irene, 2020, Phys. Rev. D, 102, 123008 - ArXiv: 2009.01306
  94. Bounds on secret neutrino interactions from high-energy astrophysical neutrinos Bustamante, Mauricio, Rosenstrøm, Charlotte, Shalgar, Shashank et al., 2020, Phys. Rev. D, 101, 123024 - ArXiv: 2001.04994
  95. Conformally Regulated Direct Integration of the Two-Loop Heptagon Remainder Bourjaily, Jacob L., Volk, Matthias, Von Hippel, Matt et al., 2020, JHEP, 02, 095 - ArXiv: 1912.05690
  96. Embedding Feynman Integral (Calabi-Yau) Geometries in Weighted Projective Space Bourjaily, Jacob L., McLeod, Andrew J., Vergu, Cristian et al., 2020, JHEP, 01, 078 - ArXiv: 1910.01534
  97. Rooting Out Letters: Octagonal Symbol Alphabets and Algebraic Number Theory Bourjaily, Jacob L., McLeod, Andrew J., Vergu, Cristian et al., 2020, JHEP, 02, 025 - ArXiv: 1910.14224
  98. Building bases of loop integrands Bourjaily, Jacob L., Herrmann, Enrico, Langer, Cameron et al., 2020, JHEP, 11, 116 - ArXiv: 2007.13905
  99. All-Multiplicity Nonplanar Amplitude Integrands in Maximally Supersymmetric Yang-Mills Theory at Two Loops Bourjaily, Jacob L., Herrmann, Enrico, Langer, Cameron et al., 2020, Phys. Rev. Lett., 124, 111603 - ArXiv: 1911.09106
  100. All-mass $n$-gon integrals in $n$ dimensions Bourjaily, Jacob L., Gardi, Einan, McLeod, Andrew J. et al., 2020, JHEP, 08, 029 - ArXiv: 1912.11067
  101. Wilson lines in AdS/dCFT Bonansea, Sara, Idiab, Khalil, Kristjansen, Charlotte et al., 2020, Phys. Lett. B, 806, 135520 - ArXiv: 2004.01693
  102. Light scalar production from Higgs bosons and FASER 2 Boiarska, Iryna, Bondarenko, Kyrylo, Boyarsky, Alexey et al., 2020, JHEP, 05, 049 - ArXiv: 1908.04635
  103. Post-Minkowskian Scattering Angle in Einstein Gravity Bjerrum-Bohr, N.E.J., Cristofoli, Andrea, Damgaard, Poul H. et al., 2020, JHEP, 08, 038 - ArXiv: 1910.09366
  104. Higher-Order Sudakov Resummation in Coupled Gauge Theories Billis, Georgios, Tackmann, Frank J., Talbert, Jim et al., 2020, JHEP, 03, 182 - ArXiv: 1907.02971
  105. Positive geometries and differential forms with non-logarithmic singularities. Part I Benincasa, Paolo, Parisi, Matteo, 2020, JHEP, 08, 023 - ArXiv: 2005.03612
  106. Steinmann Relations and the Wavefunction of the Universe Benincasa, Paolo, McLeod, Andrew J., Vergu, Cristian et al., 2020, Phys. Rev. D, 102, 125004 - ArXiv: 2009.03047
  107. Generic dijet soft functions at two-loop order: uncorrelated emissions Bell, Guido, Rahn, Rudi, Talbert, Jim et al., 2020, JHEP, 09, 015 - ArXiv: 2004.08396
  108. Soft Theorems and the KLT-Relation Aoude, Rafael, Helset, Andreas, 2020, JHEP, 04, 044 - ArXiv: 1911.09962
  109. On-shell heavy particle effective theories Aoude, Rafael, Haddad, Kays, Helset, Andreas et al., 2020, JHEP, 05, 051 - ArXiv: 2001.09164
  110. Sensitivity of Future Hadron Colliders to Leptoquark Pair Production in the Di-Muon Di-Jets Channel Allanach, B.C., Corbett, Tyler, Madigan, Maeve et al., 2020, Eur. Phys. J. C, 80, 170 - ArXiv: 1911.04455
  111. Combined search for neutrinos from dark matter self-annihilation in the Galactic Center with ANTARES and IceCube Albert, A. et al., 2020, Phys. Rev. D, 102, 082002 - ArXiv: 2003.06614
  112. One-Loop Yang-Mills Integrands from Scattering Equations Agerskov, Johannes, Bjerrum-Bohr, N.E.J., Gomez, Humberto et al., 2020, Phys. Rev. D, 102, 045023 - ArXiv: 1910.03602
  113. Reinterpretation of LHC Results for New Physics: Status and Recommendations after Run 2 Abdallah, Waleed et al., 2020, SciPost Phys., 9, 022 - ArXiv: 2003.07868
  114. Cosmic Ray Spectrum from 250 TeV to 10 PeV using IceTop Aartsen, M.G. et al., 2020, Phys. Rev. D, 102, 12 - ArXiv: 2006.05215
  115. Searching for eV-scale sterile neutrinos with eight years of atmospheric neutrinos at the IceCube Neutrino Telescope Aartsen, M.G. et al., 2020, Phys. Rev. D, 102, 052009 - ArXiv: 2005.12943
  116. eV-Scale Sterile Neutrino Search Using Eight Years of Atmospheric Muon Neutrino Data from the IceCube Neutrino Observatory Aartsen, M.G. et al., 2020, Phys. Rev. Lett., 125, 141801 - ArXiv: 2005.12942
  117. IceCube Search for Neutrinos Coincident with Compact Binary Mergers from LIGO-Virgo\textquoteright{}s First Gravitational-wave Transient Catalog Aartsen, M.G. et al., 2020, Astrophys. J. Lett., 898, L10 - ArXiv: 2004.02910
  118. IceCube Search for High-Energy Neutrino Emission from TeV Pulsar Wind Nebulae Aartsen, M.G. et al., 2020, Astrophys. J., 898, 117 - ArXiv: 2003.12071
  119. In-situ calibration of the single-photoelectron charge response of the IceCube photomultiplier tubes Aartsen, M.G. et al., 2020, JINST, 15, 06 - ArXiv: 2002.00997
  120. Characteristics of the diffuse astrophysical electron and tau neutrino flux with six years of IceCube high energy cascade data Aartsen, M.G. et al., 2020, Phys. Rev. Lett., 125, 121104 - ArXiv: 2001.09520
  121. A search for IceCube events in the direction of ANITA neutrino candidates Aartsen, M.G. et al., 2020, preprint - ArXiv: 2001.01737
  122. Constraints on neutrino emission from nearby galaxies using the 2MASS redshift survey and IceCube Aartsen, M.G. et al., 2020, JCAP, 07, 042 - ArXiv: 1911.11809
  123. Combined sensitivity to the neutrino mass ordering with JUNO, the IceCube Upgrade, and PINGU Aartsen, M.G. et al., 2020, Phys. Rev. D, 101, 032006 - ArXiv: 1911.06745
  124. Time-Integrated Neutrino Source Searches with 10 Years of IceCube Data Aartsen, M.G. et al., 2020, Phys. Rev. Lett., 124, 051103 - ArXiv: 1910.08488
  125. Design and Performance of the first IceAct Demonstrator at the South Pole Aartsen, M.G. et al., 2020, JINST, 15, T02002 - ArXiv: 1910.06945
  126. A Search for Neutrino Point-source Populations in 7 yr of IceCube Data with Neutrino-count Statistics Aartsen, M.G. et al., 2020, Astrophys. J., 893, 102 - ArXiv: 1909.08623
  127. A Search for MeV to TeV Neutrinos from Fast Radio Bursts with IceCube Aartsen, M.G. et al., 2020, Astrophys. J., 890, 111 - ArXiv: 1908.09997
  128. Velocity Independent Constraints on Spin-Dependent DM-Nucleon Interactions from IceCube and PICO Aartsen, M.G. et al., 2020, Eur. Phys. J. C, 80, 819 - ArXiv: 1907.12509
  129. Development of an analysis to probe the neutrino mass ordering with atmospheric neutrinos using three years of IceCube DeepCore data Aartsen, M.G. et al., 2020, Eur. Phys. J. C, 80, 9 - ArXiv: 1902.07771
  130. Neutrinos below 100 TeV from the southern sky employing refined veto techniques to IceCube data Aartsen, M.G. et al., 2020, J. Cosmology Astropart. Phys., 116, 102392 - ArXiv: 1902.05792
  131. Computational techniques for the analysis of small signals in high-statistics neutrino oscillation experiments Aartsen, M.G. et al., 2020, Nucl. Instrum. Meth. A, 977, 164332 - ArXiv: 1803.05390