Open Access Policy Deposits
Parent: Department of Physics
eScholarship stats: Breakdown by Item for April through July, 2024
Item | Title | Total requests | Download | View-only | %Dnld |
---|---|---|---|---|---|
8833b038 | Review of Particle Physics | 207 | 68 | 139 | 32.9% |
2h6476c8 | Simulation of Fusion Plasmas: Current Status and Future Direction | 164 | 21 | 143 | 12.8% |
3qk3d6q7 | Tools and methods for high-throughput single-cell imaging with the mother machine. | 149 | 97 | 52 | 65.1% |
16m3r325 | Search for exotic decays of the Higgs boson to a pair of pseudoscalars in the μμbb and ττbb final states. | 121 | 28 | 93 | 23.1% |
9gk1r3ps | Applications and Techniques for Fast Machine Learning in Science | 110 | 42 | 68 | 38.2% |
6rm212vq | Zonal flows in plasma—a review | 108 | 88 | 20 | 81.5% |
1jj1t706 | Polaritons in van der Waals materials | 107 | 31 | 76 | 29.0% |
5fp302sm | Combination of the W boson polarization measurements in top quark decays using ATLAS and CMS data at s = 8 TeV | 103 | 1 | 102 | 1.0% |
13q096wk | Tunable Phonon Polaritons in Atomically Thin van der Waals Crystals of Boron Nitride | 97 | 83 | 14 | 85.6% |
44f9q5sp | Fundamental limits to graphene plasmonics | 89 | 77 | 12 | 86.5% |
2qw2m22g | The Seventeenth Data Release of the Sloan Digital Sky Surveys: Complete Release of MaNGA, MaStar, and APOGEE-2 Data | 86 | 66 | 20 | 76.7% |
8ng9z58h | The role of zonal flows and predator–prey oscillations in triggering the formation of edge and core transport barriers | 81 | 14 | 67 | 17.3% |
67t5j96x | Radial transport of fluctuation energy in a two-field model of drift-wave turbulence | 80 | 14 | 66 | 17.5% |
17n103v7 | Combined Measurement of the Higgs Boson Mass in pp Collisions at s=7 and 8 TeV with the ATLAS and CMS Experiments | 79 | 3 | 76 | 3.8% |
9d87s2q3 | Improving Variational Autoencoders for New Physics Detection at the LHC With Normalizing Flows | 79 | 3 | 76 | 3.8% |
9v90r1p5 | Broadband Terahertz Silicon Membrane Metasurface Absorber | 79 | 27 | 52 | 34.2% |
9k38h9fw | Third-order optical conductivity of an electron fluid | 77 | 11 | 66 | 14.3% |
8kc8z6c1 | A unified theory of zonal flow shears and density corrugations in drift wave turbulence | 76 | 8 | 68 | 10.5% |
9sx7344m | Spectrograph of electric field fluctuation in toroidal helical plasma | 75 | 8 | 67 | 10.7% |
7108w4dd | Effects of Magnetic Shear on Toroidal Rotation in Tokamak Plasmas with Lower Hybrid Current Drive | 74 | 5 | 69 | 6.8% |
9ft3h0tp | Infrared nano-imaging of Dirac magnetoexcitons in graphene | 73 | 32 | 41 | 43.8% |
69c2k6rq | Zonal flow generation by parametric instability in magnetized plasmas and geostrophic fluids | 72 | 9 | 63 | 12.5% |
5520z558 | Measurement of prompt and nonprompt J/ψ production in pp and pPb collisions at sNN=5.02TeV | 70 | 4 | 66 | 5.7% |
17t1b367 | Searches for pair production of third-generation squarks in s=13TeV pp collisions | 69 | 4 | 65 | 5.8% |
3p526710 | Collisionless inter-species energy transfer and turbulent heating in drift wave turbulence | 69 | 10 | 59 | 14.5% |
3bn947nw | Impact of resonant magnetic perturbations on zonal modes, drift-wave turbulence and the L–H transition threshold | 68 | 7 | 61 | 10.3% |
56p5b8qm | The LHC Olympics 2020 a community challenge for anomaly detection in high energy physics | 68 | 9 | 59 | 13.2% |
5rt0x8pz | Nonlinear Triad Interactions and the Mechanism of Spreading in Drift-Wave Turbulence | 67 | 6 | 61 | 9.0% |
1fh3c7r4 | Front propagation and critical gradient transport models | 66 | 14 | 52 | 21.2% |
57z1p9r5 | Inflation physics from the cosmic microwave background and large scale structure | 66 | 7 | 59 | 10.6% |
6vz3n082 | Photonic crystals for nano-light in moiré graphene superlattices | 66 | 3 | 63 | 4.5% |
24958878 | High temperature singlet-based magnetism from Hund’s rule correlations | 64 | 11 | 53 | 17.2% |
4wv5990p | Measurements of the Higgs boson production and decay rates and constraints on its couplings from a combined ATLAS and CMS analysis of the LHC pp collision data at s=7 and 8 TeV | 64 | 3 | 61 | 4.7% |
1zc3j2b8 | Measurement of CKM matrix elements in single top quark t-channel production in proton-proton collisions at s = 13 TeV | 63 | 11 | 52 | 17.5% |
3hg5s4fv | Radial density and heat fluxes description in the velocity space: Nonlinear simulations and quasi-linear calculations | 63 | 13 | 50 | 20.6% |
6t80q2qh | Synchronization of Geodesic Acoustic Modes and Magnetic Fluctuations in Toroidal Plasmas | 63 | 6 | 57 | 9.5% |
4034543q | Non-Gaussian properties of global momentum and particle fluxes in a cylindrical laboratory plasma | 62 | 7 | 55 | 11.3% |
7sg6q500 | Search for decays of stopped long-lived particles produced in proton-proton collisions at [Formula: see text]. | 62 | 0 | 62 | 0.0% |
1hf5847q | Dynamics of stimulated L → H transitions | 60 | 12 | 48 | 20.0% |
1xh4x43h | POLARBEAR-2: an instrument for CMB polarization measurements | 60 | 12 | 48 | 20.0% |
3hf6s22f | Measurement of the Y(1S) pair production cross section and search for resonances decaying to Y(1S)μ+μ− in proton-proton collisions at s = 13 TeV | 60 | 6 | 54 | 10.0% |
4js7w6jh | Negative viscosity from negative compressibility and axial flow shear stiffness in a straight magnetic field | 60 | 8 | 52 | 13.3% |
1fd09207 | Experimental studies of zonal flow and field in compact helical system plasmaa) | 58 | 11 | 47 | 19.0% |
4m90j1v9 | Mechanisms for generating toroidal rotation in tokamaks without external momentum inputa) | 58 | 3 | 55 | 5.2% |
2zf6c5f9 | Role of phase space structures in collisionless drift wave turbulence and impact on transport modeling | 57 | 9 | 48 | 15.8% |
36n5w7gc | Measurement of single-diffractive dijet production in proton–proton collisions at s=8Te with the CMS and TOTEM experiments | 57 | 8 | 49 | 14.0% |
2q46h4sj | Majorana neutrino magnetic moment and neutrino decoupling in big bang nucleosynthesis | 56 | 8 | 48 | 14.3% |
40d025fk | Measurement of exciton correlations using electrostatic lattices | 56 | 6 | 50 | 10.7% |
07g128hx | An Introduction To The Theory Of Heavy Mesons And Baryons | 55 | 5 | 50 | 9.1% |
0ft6n7q1 | Indirect excitons in van der Waals heterostructures at room temperature | 54 | 12 | 42 | 22.2% |
Disclaimer: due to the evolving nature of the web traffic we receive and the methods we use to collate it, the data presented here should be considered approximate and subject to revision.