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Physical Sciences and Mathematics Commons™
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Full-Text Articles in Physical Sciences and Mathematics
The Occurrence Of Ionospheric Signatures Of Plasmaspheric Plumes Over Different Longitudinal Sectors, E. Yizengaw, J. Dewar, J. Macneil, D. Galvan, Jeff Sanny, David Berube, B. Sandel
The Occurrence Of Ionospheric Signatures Of Plasmaspheric Plumes Over Different Longitudinal Sectors, E. Yizengaw, J. Dewar, J. Macneil, D. Galvan, Jeff Sanny, David Berube, B. Sandel
Physics Faculty Works
Plasmaspheric plumes have ionospheric signatures and are observed as storm-enhanced density (SED) in global positioning system (GPS) total electron content (TEC). These ionospheric signatures have been primarily observed over the American sector and in a few limited examples over the European sector. This study examines the longitudinal occurrence frequency of plasmaspheric plumes. We analyzed all images from the Imager for Magnetopause-to-Aurora Global Exploration (IMAGE) Extreme Ultraviolet Imager (EUV) databases for the first half of 2001 and identified a total of 31 distinct plume intervals observed during different storm events. Out of the total IMAGE EUV plumes that we identified, 12 …
Unparticle-Enhanced Black Holes At The Lhc, Jonas R. Mureika
Unparticle-Enhanced Black Holes At The Lhc, Jonas R. Mureika
Physics Faculty Works
Based on the idea that tensor unparticles can enhance the gravitational interactions between standard model particles, potential black hole formation in high energy collisions is examined. Modifications to the horizon radius rH are derived, and the corresponding geometric cross-sections of such objects are calculated. It is shown that rH increases dramatically to the electroweak scale for masses MBH∼1–10 TeV, yielding a geometric cross-section σBH=πr2H on the order of ⩽50 pb. This suggests that unparticle physics provides a mechanism for black hole formation in future accelerators, without the requirement of extra spatial dimensions.
Eight Minutes And A Half, Gabriele U. Varieschi
Eight Minutes And A Half, Gabriele U. Varieschi
Physics Faculty Works
No abstract provided.
The Biot-Savart Law: From Infinitesimal To Infinite, Jeffrey A. Phillips, Jeff Sanny
The Biot-Savart Law: From Infinitesimal To Infinite, Jeffrey A. Phillips, Jeff Sanny
Physics Faculty Works
In this paper, we discuss a simple apparatus and accompanying class activity that we have developed to illustrate the Biot-Savart law. Since students in introductory electricity and magnetism courses often find this law a mathematical mystery, we feel that a simple experiment such as this will provide the students a better understanding of the concepts introduced. By collecting data from several finite segment lengths, students are able to infer the 1/r2 distance dependence of the magnetic field for infinitesimal segments and the 1/r dependence for infinite wires.