Optics and Interferometry with Na2 Molecules
... contributions at larger offsets from the third grating involving the first and second order diffractions from the first grating. Thus, the detected interference signal is a convolution of the spatial envelope(s) of the interference signal with the acceptance of the detector, which is determined by t ...
... contributions at larger offsets from the third grating involving the first and second order diffractions from the first grating. Thus, the detected interference signal is a convolution of the spatial envelope(s) of the interference signal with the acceptance of the detector, which is determined by t ...
Calculated and measured angular correlation between photoelectrons and
... angular momentum of the Ne wavefunction is L = 1 since it is a single photon transition from the ground state, but the Ne2+ core can have angular momentum which means that the total angular momentum of the outgoing pair can have the range 0–3. This allows us to decrease the coupled channels by a lar ...
... angular momentum of the Ne wavefunction is L = 1 since it is a single photon transition from the ground state, but the Ne2+ core can have angular momentum which means that the total angular momentum of the outgoing pair can have the range 0–3. This allows us to decrease the coupled channels by a lar ...
ΟΝ THE WAVE FUNCTION OF THE PHOTON
... despite of their purely classical origin, Maxwell equations bear a very strong resemblance to quantum wave equations that describe time evolution of a wave function in relativistic theory. The same line of argument that led Dirac to the discovery of his relativistic equation for the electron can be ...
... despite of their purely classical origin, Maxwell equations bear a very strong resemblance to quantum wave equations that describe time evolution of a wave function in relativistic theory. The same line of argument that led Dirac to the discovery of his relativistic equation for the electron can be ...
Auger cascade processes in xenon and krypton studied by electron
... The current model of the atom is based on the quantum mechanics, and it is usually referred to as an atomic orbital model or sometimes as a wave mechanics model. According to this model, electrons are described by wave functions surrounding a nucleus. Electrons are located in atomic orbitals, which ...
... The current model of the atom is based on the quantum mechanics, and it is usually referred to as an atomic orbital model or sometimes as a wave mechanics model. According to this model, electrons are described by wave functions surrounding a nucleus. Electrons are located in atomic orbitals, which ...
here
... the adjoint are the complex conjugates: hv| = i hei |v∗i . [We will often drop the summation symbol and assume repeated indices are summed.] E.g. the adjoints of the basis vectors are row bra-vectors ...
... the adjoint are the complex conjugates: hv| = i hei |v∗i . [We will often drop the summation symbol and assume repeated indices are summed.] E.g. the adjoints of the basis vectors are row bra-vectors ...
Electron transport, interaction and spin in graphene and graphene nanoribbons Artsem Shylau
... [1], a pure 2D crystal consisting of carbon atoms arranged in a honey-comb lattice. For a long time before graphene had been considered only by theoreticians as a basic block used to build theory for graphite [2] and carbon nanotubes [3]. Its existence was doubt since the theory predicted that perfe ...
... [1], a pure 2D crystal consisting of carbon atoms arranged in a honey-comb lattice. For a long time before graphene had been considered only by theoreticians as a basic block used to build theory for graphite [2] and carbon nanotubes [3]. Its existence was doubt since the theory predicted that perfe ...
Spontaneous persistent currents in a quantum spin Hall insulator D. Soriano
... crystalline order in solids and the variety of ordered electronic phases they can present, such as superconductivity and ferromagnetism.1 On the other side, topological order, which accounts for the robust quantized properties of the electron gas in the quantum Hall regimes, and, more recently, on t ...
... crystalline order in solids and the variety of ordered electronic phases they can present, such as superconductivity and ferromagnetism.1 On the other side, topological order, which accounts for the robust quantized properties of the electron gas in the quantum Hall regimes, and, more recently, on t ...
Black-Box Superconducting Circuit Quantization
... with uncontrolled (environmental) degrees of freedom must be minimized. In circuit quantum electrodynamics (cQED) [2,11,13], this is achieved by coupling the JJs to a common microwave environment with a desired discrete mode structure. So far such systems have mostly been described theoretically by ...
... with uncontrolled (environmental) degrees of freedom must be minimized. In circuit quantum electrodynamics (cQED) [2,11,13], this is achieved by coupling the JJs to a common microwave environment with a desired discrete mode structure. So far such systems have mostly been described theoretically by ...
Performance of Many–Body Perturbation Theory
... Since the beginning of the 1990’s a new field has developed on the border between solid state, condensed matter and atomic physics. The possibility to confine a small and controllable number of electrons in tunable electrostatic potentials inside semi–conductor materials has been vastly explored in ...
... Since the beginning of the 1990’s a new field has developed on the border between solid state, condensed matter and atomic physics. The possibility to confine a small and controllable number of electrons in tunable electrostatic potentials inside semi–conductor materials has been vastly explored in ...
Atomic and nuclear physics
... Quantum properties dominate the fields of atomic and molecular physics. The electromagnetic radiation and the energy levels of atoms and molecules can have only certain quantized values. Transitions between these quantized states occur by the photon processes absorption, emission, and stimulated emi ...
... Quantum properties dominate the fields of atomic and molecular physics. The electromagnetic radiation and the energy levels of atoms and molecules can have only certain quantized values. Transitions between these quantized states occur by the photon processes absorption, emission, and stimulated emi ...
The Schrödinger Wave Equation
... states as being an idealized mathematical limiting case which, while it does not satisfy the normalization condition, can still be dealt with in, provided some care is taken with the physical interpretation, in much the same way as the bound state wave functions. In order to illustrate how the time ...
... states as being an idealized mathematical limiting case which, while it does not satisfy the normalization condition, can still be dealt with in, provided some care is taken with the physical interpretation, in much the same way as the bound state wave functions. In order to illustrate how the time ...
Bosonic Symmetry Protected Topological States: Theory, Numerics
... There's this farmer, and he has these chickens, but they won't lay any eggs. So, he calls a physicist to help. The physicist then does some calculations, and he says, um, I have a solution, but it only works with spherical chickens in a vacuum! • Topological state, is a chicken that can be thought o ...
... There's this farmer, and he has these chickens, but they won't lay any eggs. So, he calls a physicist to help. The physicist then does some calculations, and he says, um, I have a solution, but it only works with spherical chickens in a vacuum! • Topological state, is a chicken that can be thought o ...
The Spin Quantum Number
... Electrons only change orbits if specific amounts (quanta) of extra energy from the outside world are involved. Electrons that receive enough extra energy from the outside world can leave the atom they are in. Electrons that return to orbits they used to reside in give up the extra energy they acquir ...
... Electrons only change orbits if specific amounts (quanta) of extra energy from the outside world are involved. Electrons that receive enough extra energy from the outside world can leave the atom they are in. Electrons that return to orbits they used to reside in give up the extra energy they acquir ...
Analysing the chromium–chromium multiple bonds using
... descriptions of metal–metal multiple bonding provides ample justification for a reexamination of many of these systems. In this review we shall try to summarize several of these results and see if there is any common pattern which may be used to understand the metal–metal bonding in some of these mol ...
... descriptions of metal–metal multiple bonding provides ample justification for a reexamination of many of these systems. In this review we shall try to summarize several of these results and see if there is any common pattern which may be used to understand the metal–metal bonding in some of these mol ...
Pdf
... that liquid. Each of these versions has relied exclusively on classical statistical mechanics in spite of the fact that substantial quantum effects should be present for molecules with inertial moments as small as those in water. It is the goal of the present paper to introduce quantization into lat ...
... that liquid. Each of these versions has relied exclusively on classical statistical mechanics in spite of the fact that substantial quantum effects should be present for molecules with inertial moments as small as those in water. It is the goal of the present paper to introduce quantization into lat ...