Cosmic Rays and Plasma Astrophysics
... fundamental new particles, the theoretical foundations of electromagnetic theory and the seeds of quantum mechanics and relativity. Various types of “rays” were found, many using “Crooke’s tubes,” an evacuated tube in which a high voltage could be applied. Röntgen found in 1895 that photographic pla ...
... fundamental new particles, the theoretical foundations of electromagnetic theory and the seeds of quantum mechanics and relativity. Various types of “rays” were found, many using “Crooke’s tubes,” an evacuated tube in which a high voltage could be applied. Röntgen found in 1895 that photographic pla ...
Abstract - Iraqi Cultural Attache
... in the magnetic topology of the field occurs-facilitated by the process of ‘magnetic reconnection’. A great deal of research has been focussed on understanding the reconnection ;process and we now appreciate that the 3D process is critically different from early 2D models. The magnetic field in many ...
... in the magnetic topology of the field occurs-facilitated by the process of ‘magnetic reconnection’. A great deal of research has been focussed on understanding the reconnection ;process and we now appreciate that the 3D process is critically different from early 2D models. The magnetic field in many ...
Volume II Electric and Magnetic Interactions
... 14.3: The Concept of “Electric Field” (555) 14.4 The Electric Field of a Point Charge (559) 14.5 Superposition of Electric Fields (562) 14.6 The Electric Field of a Dipole (564) 14.7: Choice of Sys ...
... 14.3: The Concept of “Electric Field” (555) 14.4 The Electric Field of a Point Charge (559) 14.5 Superposition of Electric Fields (562) 14.6 The Electric Field of a Dipole (564) 14.7: Choice of Sys ...
Chapter 14: Electric Field
... 15.4 Polarization of Insulators (595) 15.5 Polarization of Conductors (597) 15.6 A Model of a Metal (599) 15.7 Charging and Discharging (606) 15.8 When the Field Concept is Less Useful (608) Summary (609) Basic Experiments (614) Additional Experiments (614) Exercises and Problems (616) Answers to Ex ...
... 15.4 Polarization of Insulators (595) 15.5 Polarization of Conductors (597) 15.6 A Model of a Metal (599) 15.7 Charging and Discharging (606) 15.8 When the Field Concept is Less Useful (608) Summary (609) Basic Experiments (614) Additional Experiments (614) Exercises and Problems (616) Answers to Ex ...
MagnetosphereFormation
... Radio emission is detectable for <1 s per day Periodicities in the range of 0.4-7 s Pdot is measured for 3 sources The inferred magnetic field reaches the magnetar values ...
... Radio emission is detectable for <1 s per day Periodicities in the range of 0.4-7 s Pdot is measured for 3 sources The inferred magnetic field reaches the magnetar values ...
Discovery Of A Magnetic Field In The O9 Sub-Giant Star HD
... is not observed in other UV lines and occurs exclusively in magnetic B-type stars, e.g. ζ Cas (Neiner et al. 2003), and all magnetic Hestrong stars. Our CMFGEN models are not able to reproduce this variability by increasing the mass-loss rate, which, as we show in Section 6, leads us to believe that ...
... is not observed in other UV lines and occurs exclusively in magnetic B-type stars, e.g. ζ Cas (Neiner et al. 2003), and all magnetic Hestrong stars. Our CMFGEN models are not able to reproduce this variability by increasing the mass-loss rate, which, as we show in Section 6, leads us to believe that ...
Aurora
An aurora is a natural light display in the sky, predominantly seen in the high latitude (Arctic and Antarctic) regions. Auroras are produced when the magnetosphere is sufficiently disturbed by the solar wind that the trajectories of charged particles in both solar wind and magnetospheric plasma, mainly in the form of electrons and protons, precipitate them into the upper atmosphere (thermosphere/exosphere), where their energy is lost. The resulting ionization and excitation of atmospheric constituents emits light of varying colour and complexity. The form of the aurora, occurring within bands around both polar regions, is also dependent on the amount of acceleration imparted to the precipitating particles. Precipitating protons generally produce optical emissions as incident hydrogen atoms after gaining electrons from the atmosphere. Proton auroras are usually observed at lower latitudes. Different aspects of an aurora are elaborated in various sections below.