Recent Works
Parent: Department of Earth, Planetary, and Space Sciences
eScholarship stats: Breakdown by Item for April through July, 2024
Item | Title | Total requests | Download | View-only | %Dnld |
---|---|---|---|---|---|
403071pz | Thickness of the crust of Mercury from geoid‐to‐topography ratios | 111 | 17 | 94 | 15.3% |
5jx2s2sm | Heat transfer by rapidly rotating Rayleigh–Bénard convection | 103 | 27 | 76 | 26.2% |
62k0726h | Mechanics of inner core super‐rotation | 95 | 15 | 80 | 15.8% |
6qz5k7jn | Axisymmetric simulations of libration-driven fluid dynamics in a spherical shell geometry | 91 | 14 | 77 | 15.4% |
5bm6n165 | On the theory of core-mantle coupling | 88 | 24 | 64 | 27.3% |
9jt5d84b | Convection-driven kinematic dynamos at low Rossby and magnetic Prandtl numbers: Single mode solutions | 87 | 6 | 81 | 6.9% |
6g8384vk | Evaporation induced <sup>18</sup>O and <sup>13</sup>C enrichment in lake systems: A global perspective on hydrologic balance effects | 85 | 72 | 13 | 84.7% |
7361k8c5 | Anomalous rotation of the inner core and the toroidal magnetic field | 84 | 10 | 74 | 11.9% |
8xq8z0g8 | Superfast precipitation of energetic electrons in the radiation belts of the Earth | 84 | 10 | 74 | 11.9% |
83j959mc | Δ 13 CH 3 D and Δ 12 CH 2 D 2 signatures of methane aerobically oxidized by Methylosinus trichosporium with implications for deciphering the provenance of methane gases | 83 | 12 | 71 | 14.5% |
94r5r998 | OSS (Outer Solar System): a fundamental and planetary physics mission to Neptune, Triton and the Kuiper Belt | 83 | 9 | 74 | 10.8% |
97s3x12h | Rotating convective turbulence in Earth and planetary cores | 79 | 62 | 17 | 78.5% |
8fx1f8cz | Predominance of ECH wave contribution to diffuse aurora in Earth's outer magnetosphere | 77 | 8 | 69 | 10.4% |
3m22m0rx | Polar and mid-latitude vortices and zonal flows on Jupiter and Saturn | 76 | 10 | 66 | 13.2% |
31r7q1j8 | Tornado-like vortices in the quasi-cyclostrophic regime of Coriolis-centrifugal convection | 75 | 6 | 69 | 8.0% |
8hz43445 | High Arctic wetting reduces permafrost carbon feedbacks to climate warming | 75 | 9 | 66 | 12.0% |
7sr6v0fw | Regimes of Coriolis-Centrifugal Convection | 74 | 5 | 69 | 6.8% |
7w78r8q4 | Strong zonal winds from thermal convection in a rotating spherical shell | 74 | 7 | 67 | 9.5% |
7xq1k8rq | Libration‐driven flows in ellipsoidal shells | 74 | 8 | 66 | 10.8% |
0t18v5vf | Accelerating functional materials discovery Insights from geological sciences, data-driven approaches, and computational advances | 72 | 51 | 21 | 70.8% |
3m11w73f | Boundary layer control of rotating convection systems | 71 | 16 | 55 | 22.5% |
5ch2w82q | Influence of methane seepage on isotopic signatures in living deep-sea benthic foraminifera, 79° N | 70 | 6 | 64 | 8.6% |
6r8132hm | A comparison of oceanic and continental mantle lithosphere | 69 | 35 | 34 | 50.7% |
73m7x0zq | Nitrogen fixation in sediments along a depth transect through the Peruvian oxygen minimum zone | 67 | 7 | 60 | 10.4% |
37d352q9 | Unravelling the large-scale circulation modes in turbulent Rayleigh-Bénard convection (a) Contribution to the Focus Issue Turbulent Thermal Convection edited by Mahendra Verma and Jörg Schumacher. | 64 | 7 | 57 | 10.9% |
7ff179d1 | Dual carbonate clumped isotope (Δ47-Δ48) measurements constrain different sources of kinetic isotope effects and quasi-equilibrium signatures in cave carbonates | 64 | 15 | 49 | 23.4% |
1v0549nf | Rotating thermal convection in liquid gallium: multi-modal flow, absent steady columns | 63 | 6 | 57 | 9.5% |
2td732sd | Benthic Dinitrogen Fixation Traversing the Oxygen Minimum Zone Off Mauritania (NW Africa) | 63 | 11 | 52 | 17.5% |
1qp6d98w | Microbial Community Response to Simulated Petroleum Seepage in Caspian Sea Sediments | 62 | 6 | 56 | 9.7% |
1mj2r8jn | Experimental pub crawl from Rayleigh–Bénard to magnetostrophic convection | 61 | 9 | 52 | 14.8% |
3dj088bd | Please, add to the discussion for completeness | 61 | 0 | 61 | 0.0% |
6gg8t63n | Methanogenic Hydrocarbon Degradation: Evidence from Field and Laboratory Studies | 61 | 10 | 51 | 16.4% |
2m86n9zw | Local heating of radiation belt electrons to ultra-relativistic energies | 60 | 7 | 53 | 11.7% |
47j2c0qj | Thermal evidence for Taylor columns in turbulent rotating Rayleigh-Bénard convection | 59 | 7 | 52 | 11.9% |
0f86k0q7 | The influence of temperature and seawater carbonate saturation state on <sup>13</sup>C–<sup>18</sup>O bond ordering in bivalve mollusks | 57 | 6 | 51 | 10.5% |
40f8c0s7 | Chorus intensity modulation driven by time‐varying field‐aligned low‐energy plasma | 57 | 6 | 51 | 10.5% |
02w1x7nc | Thermal evidence for Taylor columns in turbulent rotating Rayleigh-Benard convection | 56 | 6 | 50 | 10.7% |
9r11s5p6 | Brines at high pressure and temperature: Thermodynamic, petrologic and geochemical effects | 54 | 26 | 28 | 48.1% |
27p899qf | Experiments on Rayleigh–Bénard convection, magnetoconvection and rotating magnetoconvection in liquid gallium | 53 | 18 | 35 | 34.0% |
14x4s6kp | Sulfur's impact on core evolution and magnetic field generation on Ganymede | 52 | 3 | 49 | 5.8% |
4rh4t5cj | Regional stratification at the top of Earth's core due to core–mantle boundary heat flux variations | 52 | 19 | 33 | 36.5% |
1b7778b5 | Ideas and perspectives: A strategic assessment of methane and nitrous oxide measurements in the marine environment | 51 | 4 | 47 | 7.8% |
5b65v425 | Temperature limits to deep subseafloor life in the Nankai Trough subduction zone | 49 | 19 | 30 | 38.8% |
6m11w35m | Measuring Higher-Mode SurfaceWave Dispersion Using a Transdismensional Bayesian Approach | 49 | 0 | 49 | 0.0% |
18j8b3nz | First observations of core-transiting seismic phases on Mars | 48 | 7 | 41 | 14.6% |
5z9208xz | Corrigendum to “Zircon solubility and zirconium complexation in H2O+Na2O+SiO2±Al2O3 fluids at high pressure and temperature” [Earth Planet. Sci. Lett. 349–350 (2012) 15–25] | 48 | 34 | 14 | 70.8% |
26p4c1cd | Convective heat transfer and the pattern of thermal emission on the gas giants | 47 | 1 | 46 | 2.1% |
0g80w59x | Diopside, enstatite and forsterite solubilities in H2O and H2O-NaCl solutions at lower crustal and upper mantle conditions | 46 | 16 | 30 | 34.8% |
8rr3m49z | Insufficient Evidence of Purported Lunar Effect on Pollination in Ephedra | 45 | 5 | 40 | 11.1% |
11b387sn | Dehydration melting and the relationship between granites and granulites | 44 | 31 | 13 | 70.5% |
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.