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Flux quantization effects in metal microcylinders in a tilted magnetic field

N. B. BrandtPhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kovÉ. N. BogachekPhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kovD. V. GitsuPhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kovG. A. GogadzePhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kovI. O. KulikPhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kovA. NikolaevaPhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kovYa. G. PonomarevPhysicotechnical Institute of Low Temperatures, Academy of Sciences of the Ukrainian SSR, Khar’kov
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Oscillatory phenomena of the type of “flux quantization” have been studied in normal microcylinders in a tilted magnetic field. It is shown that the oscillation period in the flux Φ = HπR2 (H is the magnetic field and R is the cylinder radius) increases with increasing field tilt angle θ relative to the cylinder axis according to a law ΔΦ = Φ0/cosΘ where Φ0 = hc/e is the flux quantum for a normal metal. The experimental data found in the present work agree with such a dependence, which allows us to interpret it as a manifestation of the Aharonov–Bohm effect in solids.

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