Atomic Orbitals and quantum numbers
... •Therefore, on any given energy level, there can be up to 1s orbital, 3p orbitals, 5d orbitals, and 7f orbitals. ...
... •Therefore, on any given energy level, there can be up to 1s orbital, 3p orbitals, 5d orbitals, and 7f orbitals. ...
Single crystal growth of Heisenberg spin ladder and spin chain
... Low dimensional magnets have attracted great attention because of their simplicity in theoretical models, novel quantum phenomena and relation to high temperature superconductivity. Among them, quasi-1D systems such as spin ladders and spin chains have found their realization in several materials, e ...
... Low dimensional magnets have attracted great attention because of their simplicity in theoretical models, novel quantum phenomena and relation to high temperature superconductivity. Among them, quasi-1D systems such as spin ladders and spin chains have found their realization in several materials, e ...
Lecture 8a
... • A nuclear spin of I, when interacting with the electronic spin, perturbs the energy of the system in such a way that each electronic state is further split into 2I+1 sublevels, as further shown above • For n nuclei, there can be 2nI+1 resonances (lines) • Since the magneton is inversely related to ...
... • A nuclear spin of I, when interacting with the electronic spin, perturbs the energy of the system in such a way that each electronic state is further split into 2I+1 sublevels, as further shown above • For n nuclei, there can be 2nI+1 resonances (lines) • Since the magneton is inversely related to ...
- dr
... Any nucleus that contains an odd number of protons and/or of neutrons has an intrinsic magnetic moment and angular momentum, in other words a spin > 0. ...
... Any nucleus that contains an odd number of protons and/or of neutrons has an intrinsic magnetic moment and angular momentum, in other words a spin > 0. ...
Nitrogen-vacancy center
The nitrogen-vacancy center (N-V center) is one of numerous point defects in diamond. Its most explored and useful property is photoluminescence, which can be easily detected from an individual N-V center, especially those in the negative charge state (N-V−). Electron spins at N-V centers, localized at atomic scales, can be manipulated at room temperature by applying a magnetic field, electric field, microwave radiation or light, or a combination, resulting in sharp resonances in the intensity and wavelength of the photoluminescence. These resonances can be explained in terms of electron spin related phenomena such as quantum entanglement, spin-orbit interaction and Rabi oscillations, and analysed using advanced quantum optics theory. An individual N-V center can be viewed as a basic unit of a quantum computer, and it has potential applications in novel, more efficient fields of electronics and computational science including quantum cryptography and spintronics.