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Showing 1–5 of 5 results
Advanced filters: Author: "R. Bingham" Clear advanced filters

  • Projecting the future retreat and thus global sea level contributions of Antarctica’s Pine Island Glacier is hampered by a poor grasp of what controls flow at the ice base. Here, via high-resolution ice-radar imaging, the authors show diverse landscapes beneath the glacier fundamentally influence ice flow.

    • Robert G. Bingham
    • David G. Vaughan
    • David E. Shean
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-9

  • Estimates of ice loss from the West Antarctic Ice Sheet depend on accurate modelling of dynamic thinning, for which knowledge of basal topography is needed; here, ice-penetrating radar, gravity and magnetic measurements reveal a subglacial rift basin that acts as a conduit between the Bellingshausen Sea and the ice-sheet interior.

    • Robert G. Bingham
    • Fausto Ferraccioli
    • David G. Vaughan
    Research
    Nature
    Volume: 487, P: 468-471

  • Particle accelerators are an essential tool for exploring fundamental physics. Conventional accelerators need to be huge, because the accelerating voltage they apply is limited to about ten million volts per metre. But a way to achieve much higher voltages has been demonstrated, using a laser to generate plasma waves. The ‘table-top’ accelerator is a step closer to reality.

    • Robert Bingham
    News & Views
    Nature
    Volume: 394, P: 617-619

  • Particle accelerators tend to be large and expensive. But an alternative technology, which could result in more compact, cheaper machines, is proving its viability for the acceleration of subatomic particles.

    • Robert Bingham
    News & Views
    Nature
    Volume: 424, P: 258-259

  • What a conventional particle accelerator needs kilometres to achieve, a compact 'plasma wakefield' accelerator has just mastered in less than a metre. So is it adieu to the era of the gargantuan mega-accelerator?

    • Robert Bingham
    News & Views
    Nature
    Volume: 445, P: 721-722