A new insight into the radiation mechanism of fast and slow traveling waves. J. Electromagn. Waves Appl. 25, 1874-1885 (2011).Li, Z., J. H. Wang, F. Li, Z. Zhang, and M. Chen, "A new insight into the radiation mechanism of fast and slow traveling waves," Journal of ...
Ultraviolet rays from the sun are a form of radiation. DAJ/Getty Images Electromagnetic (EM) radiation is a stream of photons, traveling in waves. The photon is the base particle for all forms of EM radiation. But what's a photon? It's a bundle of energy -- of light -- always ...
The energy resolution of solid-state detectors is reported to range from 0.2% to about 2% (Table 1). The energy required to create a pair of charge carrier (electron and hole for solid-state detector) is the smallest for a solid-state detector. Hence, for a given amount of incident ioni...
waves ofelectricandmagnetic fieldstraveling at thespeed of light(about 300,000 km, or 186,000 miles, per second). Theircharacteristicwavelengths and frequencies can be demonstrated and measured through theinterferenceeffects that result from the overlap of two or more waves in space. X-rays also ...
Synchrotron radiation (SR) occurs when a charge traveling at a relativistic speed in a synchrotron changes its direction of movement. SR covers a large spectrum of electromagnetic waves, from infrared to hard x-rays (in wavelength, tens of micrometers to less than 0.01 nm). Its characteristic ...
wire antennas.']]>Comments on transient radiation from nonsinusodial current waves traveling along thin curvilinear wires. Reference to previous studies conducted on this; What the compared results of both studies show.WangGangWen-BingWangIEEE Transactions on Electromagnetic Compatibility...
of each other.Figure 4(b) shows the temporal fluctuations offrep1andfrep2, where their frequency deviations from the initial values are indicated byδfrep1andδfrep2. A slow drift was clearly confirmed for both, indicating changes in the environmental conditions in the fibre cavity. However, it...
Second Comments on amp;#x201C;Radiation from Fast and Slow Traveling Wavesamp;#x201DTomiyasu, Kiyo Tomiyasu Kiyo
Reply to Second Comments on amp;#x201C;Radiation from Fast and Slow Traveling Wavesamp;#x201DSutinjo, AOkoniewski, MJohnson, R H
The existence of a steady state (traveling wave) solution is proved, and a dispersion relationship for its asymptotic stability is derived by conveniently transforming the problem into an evolution equation in a Banach space. The fully opaque burning surface limit and the case of transparent burning...