Plasma Process 8 she..
... This is known as the Bohm Sheath criteria. In effect, it says that the ions have to be traveling at the ion acoustic velocity before they enter the sheath. This makes sense as the if the velocities were zero at the edge of the sheath, then the flux of the ions into the sheath would be zero (unless t ...
... This is known as the Bohm Sheath criteria. In effect, it says that the ions have to be traveling at the ion acoustic velocity before they enter the sheath. This makes sense as the if the velocities were zero at the edge of the sheath, then the flux of the ions into the sheath would be zero (unless t ...
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... repulsive interaction. Itinerant ferromagnetism was studied by simulating the Stoner model with a strongly interacting Fermi gas of ultracold atoms. We observed nonmonotonic behavior of lifetime, kinetic energy, and size for increasing repulsive interactions, which is in good agreement with a mean-f ...
... repulsive interaction. Itinerant ferromagnetism was studied by simulating the Stoner model with a strongly interacting Fermi gas of ultracold atoms. We observed nonmonotonic behavior of lifetime, kinetic energy, and size for increasing repulsive interactions, which is in good agreement with a mean-f ...
Optoelectrical cooling of polar molecules to sub
... (c) and (d) are relevant for the determination of the final temperature. Narrow peaks confirm that the electric fields are indeed homogeneous in a large fraction of the trap volume. The simulation [30] predicts the peak position and the overall shape of the distribution quite well. In a perfect trap ...
... (c) and (d) are relevant for the determination of the final temperature. Narrow peaks confirm that the electric fields are indeed homogeneous in a large fraction of the trap volume. The simulation [30] predicts the peak position and the overall shape of the distribution quite well. In a perfect trap ...
![[pdf]](http://s1.studyres.com/store/data/008852294_1-4a2d3d456bfb23b323adf4d8cad55ae6-300x300.png)
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... Here G T1 (r, V̂, t) is the unnormalized temporal field correlation function, which is a function of position r, direction V̂, and correlation time t. The scattering and the absorption coefficients are ms and ma , respectively, and m t 5 m s 1 m a . g 1 s (V̂, V̂ 8 , t ) is the normalized temporal f ...
... Here G T1 (r, V̂, t) is the unnormalized temporal field correlation function, which is a function of position r, direction V̂, and correlation time t. The scattering and the absorption coefficients are ms and ma , respectively, and m t 5 m s 1 m a . g 1 s (V̂, V̂ 8 , t ) is the normalized temporal f ...
Desktop Assembly of Three Dimensional Nanostructures Using
... As shown in Figure 4, the difference between the inverse of the friction factors of the 100 nm and 2 μm long CNTs is maximized when oriented parallel to the flow. This implies that the maximum difference between the terminal velocities of these lengths of CNTs will be achieved when oriented parallel ...
... As shown in Figure 4, the difference between the inverse of the friction factors of the 100 nm and 2 μm long CNTs is maximized when oriented parallel to the flow. This implies that the maximum difference between the terminal velocities of these lengths of CNTs will be achieved when oriented parallel ...
Modeling of Microwave Absorption Mechanisms in
... ε” is non-zero, and quantifies the degree to which the electromagnetic energy is converted to heat. A further quantity, the loss angle δ, is also commonly used in the literature, and is more usually given in the form of its tangent. It is related to the complex dielectric constant by expression tan ...
... ε” is non-zero, and quantifies the degree to which the electromagnetic energy is converted to heat. A further quantity, the loss angle δ, is also commonly used in the literature, and is more usually given in the form of its tangent. It is related to the complex dielectric constant by expression tan ...
METHODOLOGY OF TEACHING BASIC ELECTRICITY
... seen. As basic laws only those laws are considered, which are valid for the entire field of technical applications. c) The application of basic laws in a specific branch must be included into teaching programs of special branches. The arguments in precedent passage are the motive, in account of it w ...
... seen. As basic laws only those laws are considered, which are valid for the entire field of technical applications. c) The application of basic laws in a specific branch must be included into teaching programs of special branches. The arguments in precedent passage are the motive, in account of it w ...
Complete characterization of a spatiotemporally
... simple first-order spatiotemporal distortions, specifically, spatial chirp and pulse-front tilt [23,24]. However, more powerful techniques are needed to completely characterize spatiotemporally complex pulses. More recently, a number of techniques that yield partial solutions to the spatiotemporal m ...
... simple first-order spatiotemporal distortions, specifically, spatial chirp and pulse-front tilt [23,24]. However, more powerful techniques are needed to completely characterize spatiotemporally complex pulses. More recently, a number of techniques that yield partial solutions to the spatiotemporal m ...
Time in physics
Time in physics is defined by its measurement: time is what a clock reads. In classical, non-relativistic physics it is a scalar quantity and, like length, mass, and charge, is usually described as a fundamental quantity. Time can be combined mathematically with other physical quantities to derive other concepts such as motion, kinetic energy and time-dependent fields. Timekeeping is a complex of technological and scientific issues, and part of the foundation of recordkeeping.