Abstract
The photoionization microscopy of hydrogen in magnetic and quadrupolar electric fields is studied on the basis of the semiclassical theory. Potential for the studied system possesses saddle points lying in the [Formula: see text]-direction, rather than the [Formula: see text]-direction in the common case, such as atom in the electric field. We find the electron current recorded by cylindrical surface detector shows symmetric interference patterns along [Formula: see text]-direction, and predict that the interference pattern presents the list structure, instead of the cyclic structure observed in the electric field. Besides, the interference structures are assigned to different types of trajectories. As the scaled energy increases, the structure of the interference pattern evolves smoothly and more types of trajectories emerge.
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