Particle in a Box : Semi Macro and Micro system of Energy
... p. It remains constant but but only changes in sign when it collides against the wall The phase integral for the periodic motion of the particle is given by- ...
... p. It remains constant but but only changes in sign when it collides against the wall The phase integral for the periodic motion of the particle is given by- ...
Rabi oscillations
... This technique was used by Nakamura et al. in their original work showing coherent oscillations in a Cooper-pair box. Later developments has shown that charge noise is the dominant noise source for superconducting qubits. At the charge degeneracy point the two qubit eigenstates have equal charge, an ...
... This technique was used by Nakamura et al. in their original work showing coherent oscillations in a Cooper-pair box. Later developments has shown that charge noise is the dominant noise source for superconducting qubits. At the charge degeneracy point the two qubit eigenstates have equal charge, an ...
slides in pdf format
... Electric Power lines could carry electricity from California to New York with no loss of power! Possible now, but not economically feasible ...
... Electric Power lines could carry electricity from California to New York with no loss of power! Possible now, but not economically feasible ...
The single particle density of states
... speed of light is a constant, but the speed of sound depends on direction (and polarization). We will ignore this complication here, with the realization that in the final result, v will have to be replaced by an appropriate average over the direction of ~k (and polarization). The density of states ...
... speed of light is a constant, but the speed of sound depends on direction (and polarization). We will ignore this complication here, with the realization that in the final result, v will have to be replaced by an appropriate average over the direction of ~k (and polarization). The density of states ...
Statistical Thermodynamics
... • The most “disordered” macrostate is the state with the highest probability. • The macrostate with the highest thermodynamic probability will be the observed equilibrium state of the system. • The statistical model suggests that systems tend to change spontaneously from states with low thermodynam ...
... • The most “disordered” macrostate is the state with the highest probability. • The macrostate with the highest thermodynamic probability will be the observed equilibrium state of the system. • The statistical model suggests that systems tend to change spontaneously from states with low thermodynam ...
Special Relativity and Fields Homework problem, due 13th October
... reaching relativistic velocities. Consider the following simple model for each of the electrons. Suppose that the electron is a classical particle, subject to the electric force of the electromagnetic field. We ignore the Lorentz force and we assume the electric field to be uniform along the traject ...
... reaching relativistic velocities. Consider the following simple model for each of the electrons. Suppose that the electron is a classical particle, subject to the electric force of the electromagnetic field. We ignore the Lorentz force and we assume the electric field to be uniform along the traject ...
Unit Review I – Particle Physics
... progress in their understanding of the fundamental components of the universe? The Eight-fold Way is the conceptual foundation of Gell-Mann and Ne’eman. It is the theory of quarks. Larger hadronic particles (protons and neutrons) can be seen as composites of more basic particles… quarks. The populat ...
... progress in their understanding of the fundamental components of the universe? The Eight-fold Way is the conceptual foundation of Gell-Mann and Ne’eman. It is the theory of quarks. Larger hadronic particles (protons and neutrons) can be seen as composites of more basic particles… quarks. The populat ...
Classical mechanics: x(t), y(t), z(t) specifies the system completely
... quantities of some variables (like x and px for example) to characterize the state of the system (due to Heisenberg h h f h (d b uncertainty). What variables can one concurrently specify which give the maximum information of the state of a system (“good” quantum numbers)? ‐ Consider free particl ...
... quantities of some variables (like x and px for example) to characterize the state of the system (due to Heisenberg h h f h (d b uncertainty). What variables can one concurrently specify which give the maximum information of the state of a system (“good” quantum numbers)? ‐ Consider free particl ...
Pdf
... A new cluster development for the logarithm of the grand partition function of a system of interacting particles is derived. The leading term in this expansion is the pressure exerted by an ideal Bose or Fermi gas at the same temperature and absolute activity Z as the actual system. Succeeding terms ...
... A new cluster development for the logarithm of the grand partition function of a system of interacting particles is derived. The leading term in this expansion is the pressure exerted by an ideal Bose or Fermi gas at the same temperature and absolute activity Z as the actual system. Succeeding terms ...
January 2007
... The Born-Oppenheimer (BO) approximation determines molecular shape by minimizing the electronic energy as a function of fixed nuclear coordinates of the atoms. Your results in a) should imply that the BO energy has (at least) three distinct minima. Label them A,B and C. Tunneling of the molecular sh ...
... The Born-Oppenheimer (BO) approximation determines molecular shape by minimizing the electronic energy as a function of fixed nuclear coordinates of the atoms. Your results in a) should imply that the BO energy has (at least) three distinct minima. Label them A,B and C. Tunneling of the molecular sh ...
