Magnetic operations: a little fuzzy physics?

A Ramírez; Ashtekar A; Atakishiyev N M; B Mielnik; Bender C; Campbell J; Carroll L; Castaños O; Combescure M; Combescure M Robert D; Connes A; Connes A; Connes A; Contreras-Astorga A; Cruz S y Cruz; Delgado F; Delgado F J; Dodonov V V; Duplij S; Eisberg R; Fernández D J; Fernández D J; Figueroa E; Gendenshtein L E; Gendenshtein L E; Glauber R; Godina J J; Hagedorn G A; Hausdorff F; Herrera G; Infeld L; Jackson J D; Lin Q-G; Madore J; Magnus W; Malkin I A; Mielnik B; Mielnik B; Mielnik B; Mielnik B; Misner C W; Paul W; Plebański J F; Primas H; Pöschel J; Ramírez A; Reed G; Rovelli C; Schrade G; Seiberg N Witten E; Simon B; Torres M; Vagner I D; Vetenskapsakademien K; Wigner E P; Zel'dovich Ya B

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Magnetic operations: a little fuzzy physics?

Abstract

We examine the behaviour of charged particles in homogeneous, constant and/or oscillating magnetic fields in the non-relativistic approximation. A special role of the geometric center of the particle trajectory is elucidated. In quantum case it becomes a 'fuzzy point' with non-commuting coordinates, an element of non-commutative geometry which enters into the traditional control problems. We show that its application extends beyond the usually considered time independent magnetic fields of the quantum Hall effect. Some simple cases of magnetic control by oscillating fields lead to the stability maps differing from the traditional Strutt diagram.Comment: 28 pages, 8 figure

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