Regular and chaotic motion of anti-protons through a
... 2.25 cm and Bw = 2 T. Experiments indicate that the order of the multipole field will need to be somewhat high in order for the e+ plasma to have sufficient lifetime [4]. For this paper, we focus on the case of an octupole field, s = 4, since this appears to be a good compromise between the difficul ...
... 2.25 cm and Bw = 2 T. Experiments indicate that the order of the multipole field will need to be somewhat high in order for the e+ plasma to have sufficient lifetime [4]. For this paper, we focus on the case of an octupole field, s = 4, since this appears to be a good compromise between the difficul ...
Document
... a) Charge distributions consist of a very large number of closely spaced charges. b) Charge distributions may be uniform arrangements of charges along a line, over a surface, or throughout a volume. c) Calculus provides important tools for determining electric fields due to charge distributions. ...
... a) Charge distributions consist of a very large number of closely spaced charges. b) Charge distributions may be uniform arrangements of charges along a line, over a surface, or throughout a volume. c) Calculus provides important tools for determining electric fields due to charge distributions. ...
The Evolution of the South Atlantic Anomaly Measured by RHESSI
... For a complete description of the influence of the magnetic field on the trapped particles, the B-field gradient perpendicular to the field strength is relevant, too. Although there are also other mechanisms, the two most important resulting effects are the gradient and the curvature drift. The grad ...
... For a complete description of the influence of the magnetic field on the trapped particles, the B-field gradient perpendicular to the field strength is relevant, too. Although there are also other mechanisms, the two most important resulting effects are the gradient and the curvature drift. The grad ...
Time-Dependent Meson Melting in External Magnetic Field
... Figure 2.5: Sketch of the collision of two nuclei, shown in the transverse plane perpendicular to the beam. The collision region is limited to the interaction almond in the center of the transverse plane. Spectator nucleons located in the white regions of the nuclei do not participate in the collisi ...
... Figure 2.5: Sketch of the collision of two nuclei, shown in the transverse plane perpendicular to the beam. The collision region is limited to the interaction almond in the center of the transverse plane. Spectator nucleons located in the white regions of the nuclei do not participate in the collisi ...
Electron surfing acceleration in magnetic reconnection
... [16] In order to understand how and where the highenergy electrons are generated, we investigate an electron trajectory. Shown in Figure 3 is a typical trajectory of electron that is strongly accelerated during the interaction with the plasma sheet. The solid curve is the trajectory in (X, Z) space, ...
... [16] In order to understand how and where the highenergy electrons are generated, we investigate an electron trajectory. Shown in Figure 3 is a typical trajectory of electron that is strongly accelerated during the interaction with the plasma sheet. The solid curve is the trajectory in (X, Z) space, ...
lab 5 Magnetic Fields and Forces
... magnetic field to be largest. Is there any evidence of a magnetic field from a current carrying wire? Watch the compass as you turn the current on and off. Does the compass always point in the same direction? How far from the wire can the compass be and still show a deflection? Develop a measurement ...
... magnetic field to be largest. Is there any evidence of a magnetic field from a current carrying wire? Watch the compass as you turn the current on and off. Does the compass always point in the same direction? How far from the wire can the compass be and still show a deflection? Develop a measurement ...
Magnetic monopole
A magnetic monopole is a hypothetical elementary particle in particle physics that is an isolated magnet with only one magnetic pole (a north pole without a south pole or vice versa). In more technical terms, a magnetic monopole would have a net ""magnetic charge"". Modern interest in the concept stems from particle theories, notably the grand unified and superstring theories, which predict their existence.Magnetism in bar magnets and electromagnets does not arise from magnetic monopoles. There is no conclusive experimental evidence that magnetic monopoles exist at all in our universe.Some condensed matter systems contain effective (non-isolated) magnetic monopole quasi-particles, or contain phenomena that are mathematically analogous to magnetic monopoles.