Influence of Inhomogeneous Magnetic Field on the Qutrit Teleportation Via XXZ Heisenberg Chain Under Intrinsic Decoherence

The flow, energy distribution and concentrations profiles of Ti ions in cathodic arc are studied by test particle Monte Carlo simulations with considering the mass transfer through the macro-particles filters with inhomogeneous magnetic field. The loss of ions due to their deposition on filter walls was calculated as a function of electric current and number of turns in the coil. The magnetic field concentrator that arises in the bending region of the filters leads to increase the loss of the ions component of cathodic arc. The ions loss up to 80 % of their energy resulted by the paired elastic collisions which correspond to the experimental results. The ion fluxes arriving at the surface of the substrates during planetary rotating of them opposite the evaporators mounted to each other at an angle of 120° characterized by the wide range of mutual overlapping.

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Adiabatic invariant and evolution equations for the motion of a particle in a strongly inhomogeneous magnetic field

Radiophysics and Quantum Electronics ◽

10.1007/bf01043646 ◽

1982 ◽

Vol 25 (9) ◽

pp. 703-710

Author(s):

K. Sh. Khodzhaev ◽

A. G. Chirkov ◽

S. D. Shatalov

Keyword(s):

Magnetic Field ◽

Evolution Equations ◽

Inhomogeneous Magnetic Field ◽

Adiabatic Invariant

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Erythrocytes Sedimentation Profiles Under Gravitational Field as Determined by He-Ne Laser: VIII - Effect of Inhomogeneous Magnetic Field

IEEE Transactions on Biomedical Engineering ◽

10.1109/tbme.1983.325170 ◽

1983 ◽

Vol BME-30 (1) ◽

pp. 70-73 ◽

Cited By ~ 2

Author(s):

Megha Singh ◽

S. Swarnamani

Keyword(s):

Magnetic Field ◽

Gravitational Field ◽

Inhomogeneous Magnetic Field

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OBSERVATION OF THE TRANSVERSE STERN–GERLACH EFFECT IN NEUTRAL POTASSIUM

Canadian Journal of Physics ◽

10.1139/p67-112 ◽

1967 ◽

Vol 45 (4) ◽

pp. 1481-1495 ◽

Cited By ~ 25

Author(s):

Myer Bloom ◽

Eric Enga ◽

Hin Lew

Keyword(s):

Magnetic Field ◽

Angular Velocity ◽

Reference Frame ◽

Inhomogeneous Magnetic Field ◽

Time Dependent ◽

Effective Magnetic Field ◽

Classical Analysis ◽

At Resonance ◽

Rotating Reference Frame

A successful transverse Stern–Gerlach experiment has been performed, using a beam of neutral potassium atoms and an inhomogeneous time-dependent magnetic field of the form[Formula: see text]A classical analysis of the Stern–Gerlach experiment is given for a rotating inhomogeneous magnetic field. In general, when space quantization is achieved, the spins are quantized along the effective magnetic field in the reference frame rotating with angular velocity ω about the z axis. For ω = 0, the direction of quantization is the z axis (conventional Stern–Gerlach experiment), while at resonance (ω = −γH0) the direction of quantization is the x axis in the rotating reference frame (transverse Stern–Gerlach experiment). The experiment, which was performed at 7.2 Mc, is described in detail.

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