Ab-initio Modeling of Cold Gases November 11, 2009
... The key observation was that the atom-photon interactions could be used and controlled in such a way that the Bose-Hubbard model can be realized for a sufficiently long time and at sufficiently low temperature. Systems consisting of atoms in an optical lattice have the advantage over strongly-intera ...
... The key observation was that the atom-photon interactions could be used and controlled in such a way that the Bose-Hubbard model can be realized for a sufficiently long time and at sufficiently low temperature. Systems consisting of atoms in an optical lattice have the advantage over strongly-intera ...
Quantum Biology at the Cellular Level
... The implication here is that starting 'from first principles' won‟t help. Even if we accept that, when sufficiently well isolated, all physical systems are governed by quantum physics, biological systems can never be truly isolated. Whatever reasonable approximation we may choose, will result in a c ...
... The implication here is that starting 'from first principles' won‟t help. Even if we accept that, when sufficiently well isolated, all physical systems are governed by quantum physics, biological systems can never be truly isolated. Whatever reasonable approximation we may choose, will result in a c ...
Tunneling spectroscopy of hole plasmons in a valence
... peaks at B⫽0 of Fig. 2 to be separated by ⬃32 mV, corresponding to an energy difference of 5 meV. This compares reasonably well with the theoretical spacing of ⬃7 meV in Fig. 3. It is difficult to compare the satellite spacing with the bias position of the LH1 resonance due to the difference between ...
... peaks at B⫽0 of Fig. 2 to be separated by ⬃32 mV, corresponding to an energy difference of 5 meV. This compares reasonably well with the theoretical spacing of ⬃7 meV in Fig. 3. It is difficult to compare the satellite spacing with the bias position of the LH1 resonance due to the difference between ...
Slide 1
... collides with the loaded glider and the two gliders stick together. Describe the motion of the gliders after the collision. Answer: The mass of the stuck-together gliders is four times that of the unloaded glider. The velocity of the stuck-together gliders is one fourth of the unloaded glider’s velo ...
... collides with the loaded glider and the two gliders stick together. Describe the motion of the gliders after the collision. Answer: The mass of the stuck-together gliders is four times that of the unloaded glider. The velocity of the stuck-together gliders is one fourth of the unloaded glider’s velo ...
Rotational Kinematics (Part I from chapter 10)
... A golf club consists of a shaft connected to a club head. The golf club can be modeled as a uniform rod of length L and mass m1 extending radially from the surface of a sphere of radius R and mass m2. Find the location of the club’s center of mass, measured from the center of the club head. ...
... A golf club consists of a shaft connected to a club head. The golf club can be modeled as a uniform rod of length L and mass m1 extending radially from the surface of a sphere of radius R and mass m2. Find the location of the club’s center of mass, measured from the center of the club head. ...
Electron momentum spectroscopy study on valence electronic
... the intensity leakage from the neighbor orbitals. Therefore, their summed intensity distributions were compared in Fig. 4d to check this possibility. It can be seen that the discrepancies in lower momentum region p < 0.5 a.u. still exist, and the experimental distributions in lower momentum region d ...
... the intensity leakage from the neighbor orbitals. Therefore, their summed intensity distributions were compared in Fig. 4d to check this possibility. It can be seen that the discrepancies in lower momentum region p < 0.5 a.u. still exist, and the experimental distributions in lower momentum region d ...
On the Theory of Intramolecular Energy Transfer
... Fourier series in the N phases (the angle variables) and thereby in terms of N fundamental frequencies (less if degenerate), plus combinations and overtones. The power spectrum of any dynamical variable can be obtained by computing its autocorrelation function using a classical trajectory; 1 the abo ...
... Fourier series in the N phases (the angle variables) and thereby in terms of N fundamental frequencies (less if degenerate), plus combinations and overtones. The power spectrum of any dynamical variable can be obtained by computing its autocorrelation function using a classical trajectory; 1 the abo ...
Introduction to the Physical Properties of Graphene
... a theorem (Mermin-Wagner theorem) which states that a 2D crystal looses its long-range order, and thus melts, at any small but non-zero temperature, due to thermal fluctuations. Furthermore, electrons in graphene show relativistic behaviour, and the system is therefore an ideal candidate for the tes ...
... a theorem (Mermin-Wagner theorem) which states that a 2D crystal looses its long-range order, and thus melts, at any small but non-zero temperature, due to thermal fluctuations. Furthermore, electrons in graphene show relativistic behaviour, and the system is therefore an ideal candidate for the tes ...
