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... This expression is valid for spherical isotropic Brownian motion of a dipole in an Onsager cavity. To obtain the molecular DCF it is necessary to average over distribution of orientations at time t, for a given initial orientation and then to average over an equilibrium distribution of initial orien ...
... This expression is valid for spherical isotropic Brownian motion of a dipole in an Onsager cavity. To obtain the molecular DCF it is necessary to average over distribution of orientations at time t, for a given initial orientation and then to average over an equilibrium distribution of initial orien ...
Spin and orbital Kondo effect in electrostatically coupled quantum dots S. L
... Figure 3a presents the differential conductance of a DQD for ΔE ≠ 0. The high transparency region (VSD, h ≈ 0) corresponds to the spin Kondo effect at the dots (εi+ = εi–, 2*SU(2)). The enhanced conductance in this region, marked by the dark circle, is due to the orbital Kondo effect (ε1+ = ε2– for ...
... Figure 3a presents the differential conductance of a DQD for ΔE ≠ 0. The high transparency region (VSD, h ≈ 0) corresponds to the spin Kondo effect at the dots (εi+ = εi–, 2*SU(2)). The enhanced conductance in this region, marked by the dark circle, is due to the orbital Kondo effect (ε1+ = ε2– for ...
PPT
... If the particle is released, it will fall toward the center of Earth, as a result of the gravitational force , with an acceleration we shall call the gravitational acceleration ag. Newton’s second law tells us that magnitudes F and ag are related by If the Earth is a uniform sphere of mass M, the ma ...
... If the particle is released, it will fall toward the center of Earth, as a result of the gravitational force , with an acceleration we shall call the gravitational acceleration ag. Newton’s second law tells us that magnitudes F and ag are related by If the Earth is a uniform sphere of mass M, the ma ...
Exercises Introduction 1.1 F.H What is the de Broglie
... earth. What is the bendig radius due to the gravitational force. What are the electric and magnetic fields needed to obtain the same bending radius. What is the ratio between the electric and magnetic fields. Is this ratio different for a proton with a kinetic energy of 1 GeV. (the gravitational con ...
... earth. What is the bendig radius due to the gravitational force. What are the electric and magnetic fields needed to obtain the same bending radius. What is the ratio between the electric and magnetic fields. Is this ratio different for a proton with a kinetic energy of 1 GeV. (the gravitational con ...
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... level, the circumference of its orbit becomes 9 times greater. This occurs because (a) there are 3 times as many wavelengths in the new orbit, (b) there are 3 times as many wavelengths and each wavelength is 3 times as long, (c) the wavelength of the electron becomes 9 times as long, or (d) the elec ...
... level, the circumference of its orbit becomes 9 times greater. This occurs because (a) there are 3 times as many wavelengths in the new orbit, (b) there are 3 times as many wavelengths and each wavelength is 3 times as long, (c) the wavelength of the electron becomes 9 times as long, or (d) the elec ...
