Program Abstracts
... Since the sixties biennial Symposium on Spin Waves in St. Petersburg was aimed at providing an opportunity for discussion of the latest advances in fundamental studies of dynamic properties of various magnetically ordered materials. This year the Symposium will highlight the modern problems of magne ...
... Since the sixties biennial Symposium on Spin Waves in St. Petersburg was aimed at providing an opportunity for discussion of the latest advances in fundamental studies of dynamic properties of various magnetically ordered materials. This year the Symposium will highlight the modern problems of magne ...
Lokal fulltext - Chalmers tekniska högskola
... charge sensing in a scanning probe setup. To integrate the superconducting resonator onto our NSMM probe we develop a new type of resonator design - the fractal design - that have a very small external dipole moment allowing for a compact resonator. Another advantage of the fractal resonator is its ...
... charge sensing in a scanning probe setup. To integrate the superconducting resonator onto our NSMM probe we develop a new type of resonator design - the fractal design - that have a very small external dipole moment allowing for a compact resonator. Another advantage of the fractal resonator is its ...
A Low-Cost Electromagnetic T Wireless Identification, Sensing
... access; this requires a means of wirelessly sensing and identifying the objects and people that come in and out of our local worlds. Unfortunately, computers are quite blind to the physical world with which they must ultimately interact. Present computers lack the rich sensory interactions and relat ...
... access; this requires a means of wirelessly sensing and identifying the objects and people that come in and out of our local worlds. Unfortunately, computers are quite blind to the physical world with which they must ultimately interact. Present computers lack the rich sensory interactions and relat ...
Author`s personal copy
... on the wave vector [23–25]. This dependence leads to a number of phenomena, such as the rotation of the plane of polarization, anisotropy of cubic crystals and other [26–37]. The spatial dispersion is caused by non-local connection between the electric induction D and the electric field E. Vector D ...
... on the wave vector [23–25]. This dependence leads to a number of phenomena, such as the rotation of the plane of polarization, anisotropy of cubic crystals and other [26–37]. The spatial dispersion is caused by non-local connection between the electric induction D and the electric field E. Vector D ...
Abstract
... monitors, two Faraday cups, one current transformer and one inflector. The design of such a line requires extensive computation, especially for the 6-D matching and for the inflector, not to speak of space charge effects to be taken into account. On the other hand, the transmission from the top of t ...
... monitors, two Faraday cups, one current transformer and one inflector. The design of such a line requires extensive computation, especially for the 6-D matching and for the inflector, not to speak of space charge effects to be taken into account. On the other hand, the transmission from the top of t ...
PDF list of all Ch. 19 Conceptual Questions, Conceptual Exercises
... personnel wear shoes that are conducting or nonconducting? Explain. 18. Two electric charges are separated by a finite distance. Somewhere between the charges, on the line connecting them, the net electric field they produce is zero. (a) Do the charges have the same or opposite signs? Explain. (b) I ...
... personnel wear shoes that are conducting or nonconducting? Explain. 18. Two electric charges are separated by a finite distance. Somewhere between the charges, on the line connecting them, the net electric field they produce is zero. (a) Do the charges have the same or opposite signs? Explain. (b) I ...
CHAPTER -1 ELECTRIC CHARGES AND FIELDS
... (a) Electric charge of a body is quantized. This means that only integral (1, 2, …., n) number of electrons can be transferred from one body to the other. Charges are not transferred in fraction. Hence, a body possesses total charge only in integral multiples of electric charge. (b) In macroscopic o ...
... (a) Electric charge of a body is quantized. This means that only integral (1, 2, …., n) number of electrons can be transferred from one body to the other. Charges are not transferred in fraction. Hence, a body possesses total charge only in integral multiples of electric charge. (b) In macroscopic o ...
