PLMCN10-orals-12-Monday-Mo-33
... O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Physical Review B 80, 115302 (2009). O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Nanotechnology 21, 134019 (2010). ...
... O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Physical Review B 80, 115302 (2009). O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Nanotechnology 21, 134019 (2010). ...
Quantum criticality and dyonic black holes
... Bekenstein and Hawking discovered astonishing connections between the Einstein theory of black holes and the laws of thermodynamics ...
... Bekenstein and Hawking discovered astonishing connections between the Einstein theory of black holes and the laws of thermodynamics ...
Aalborg Universitet
... Initially an integral equation for fL(t) is derived. Further, the Cook-Rice identity (1) is generalized to non-stationary processes or time-varying safe domains. Formal inclusion-exclusion series for fL(t) , fT(t) and the kernel of the integral equation are then derived. It is remarkable that the fi ...
... Initially an integral equation for fL(t) is derived. Further, the Cook-Rice identity (1) is generalized to non-stationary processes or time-varying safe domains. Formal inclusion-exclusion series for fL(t) , fT(t) and the kernel of the integral equation are then derived. It is remarkable that the fi ...
1 Basics of Semiconductor and Spin Physics
... 1 It is often stated that the origin of the spin–orbit interaction is relativistic and quantummechanical. This is true in the sense that it can be derived from the relativistic Dirac equation by keeping terms on the order of 1/c2 . However, the above formula B = (1/c)E × v is not relativistic: one d ...
... 1 It is often stated that the origin of the spin–orbit interaction is relativistic and quantummechanical. This is true in the sense that it can be derived from the relativistic Dirac equation by keeping terms on the order of 1/c2 . However, the above formula B = (1/c)E × v is not relativistic: one d ...
Brief history of the atom
... If an object is hotter than its surroundings it will cool by giving off light. In order to study this effect scientist had to eliminate the other modes of cooling. Blocks of graphite were hollowed and a small hole was drilled into the carbon. Although the outside of the carbon block would cool by co ...
... If an object is hotter than its surroundings it will cool by giving off light. In order to study this effect scientist had to eliminate the other modes of cooling. Blocks of graphite were hollowed and a small hole was drilled into the carbon. Although the outside of the carbon block would cool by co ...
