W. Ketterle
... interaction energy (mean-field energy) resulting in momentum distributions much broader than the zeropoint motion of the ground state of the harmonic trapping potential. Since the size of a trapped condensate with repulsive interactions is larger than the trap ground state, the momentum distribution ...
... interaction energy (mean-field energy) resulting in momentum distributions much broader than the zeropoint motion of the ground state of the harmonic trapping potential. Since the size of a trapped condensate with repulsive interactions is larger than the trap ground state, the momentum distribution ...
Presentation
... QED is proposed as an alternative to transformative optics in enhancing diffraction-limited images. QED does not rely on evanescent waves, but by QM precludes conservation of light from the diffraction-limited image P* by a change in temperature. Instead, simple QED conserves the light from the diff ...
... QED is proposed as an alternative to transformative optics in enhancing diffraction-limited images. QED does not rely on evanescent waves, but by QM precludes conservation of light from the diffraction-limited image P* by a change in temperature. Instead, simple QED conserves the light from the diff ...
On the Utility of Entanglement in Quantum Neural Computing
... Operators on a Hilbert space describe how one wave function is changed into another. Here they will be denoted by a capital letter with a hat, such as A, and they may be represented as matrices acting on vectors. Using operators, an eigenvalue equation can be written A 4;) = a i l & ) , where aiis t ...
... Operators on a Hilbert space describe how one wave function is changed into another. Here they will be denoted by a capital letter with a hat, such as A, and they may be represented as matrices acting on vectors. Using operators, an eigenvalue equation can be written A 4;) = a i l & ) , where aiis t ...
Self-consistent approach for calculations of exciton binding energy
... functional with respect to the variational parameters. Unfortunately, even in the simplest (and, therefore, less accurate) realization of this approach it is not possible to express a value of the binding energy as a function of quantum well parameters. The best one can hope for is to obtain a set o ...
... functional with respect to the variational parameters. Unfortunately, even in the simplest (and, therefore, less accurate) realization of this approach it is not possible to express a value of the binding energy as a function of quantum well parameters. The best one can hope for is to obtain a set o ...
Heisenberg Uncertainty Principle
... Bohr’s theory. It was first developed using noncommuting algebra and then by matrices. ...
... Bohr’s theory. It was first developed using noncommuting algebra and then by matrices. ...
Gauge Field Theory - High Energy Physics Group
... A sexier title for these lectures would be ‘Current theory of everything’, but other lecturers wouldn’t allow it. They are intended to take you from something that you (hopefully) know very well – the Schrödinger equation of non-relativistic quantum mechanics – to the current state-of-the-art in our ...
... A sexier title for these lectures would be ‘Current theory of everything’, but other lecturers wouldn’t allow it. They are intended to take you from something that you (hopefully) know very well – the Schrödinger equation of non-relativistic quantum mechanics – to the current state-of-the-art in our ...
Fundamental quantum limit in Mach
... are determined in Schrödinger Minimum Uncertainty States (SMUS). On the base of more general Uncertainty Relation (Schrödinger-1930), we accurately define the notion of fundamental quantum limit. The newly obtained Schrödinger Limit formula is applied for Mach-Zehnder Interferometer also, fed wit ...
... are determined in Schrödinger Minimum Uncertainty States (SMUS). On the base of more general Uncertainty Relation (Schrödinger-1930), we accurately define the notion of fundamental quantum limit. The newly obtained Schrödinger Limit formula is applied for Mach-Zehnder Interferometer also, fed wit ...
The quantum atom
... with the Bohr model still remained, however: it was unable to explain the spectrum of any atom more complicated than hydrogen. A refinement suggested by Sommerfeld assumed that some of the orbits are elliptical instead of circular, and invoked a second quantum number, l, that indicated the degree of ...
... with the Bohr model still remained, however: it was unable to explain the spectrum of any atom more complicated than hydrogen. A refinement suggested by Sommerfeld assumed that some of the orbits are elliptical instead of circular, and invoked a second quantum number, l, that indicated the degree of ...
