Nelson's stochastic mechanics yields tunneling time statistics in double wells, with τ_QM = (π/2) τ_bar in the high-barrier limit, and reproduces ammonia's 24 GHz inversion frequency.
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TDDFT simulations of ultrafast optical pulses in metallic nanogaps identify multi-photon assisted tunneling, its transition to field emission with increasing field strength, and reproduce experimental transport data under dc bias.
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Tunneling in double-well potentials within Nelson's stochastic mechanics: Application to ammonia inversion
Nelson's stochastic mechanics yields tunneling time statistics in double wells, with τ_QM = (π/2) τ_bar in the high-barrier limit, and reproduces ammonia's 24 GHz inversion frequency.
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Ultrafast optically induced tunneling in narrow metallic gaps from the time dependent density functional perspective
TDDFT simulations of ultrafast optical pulses in metallic nanogaps identify multi-photon assisted tunneling, its transition to field emission with increasing field strength, and reproduce experimental transport data under dc bias.