mechanics, the spin–orbit interaction (also called spin–orbit effect or spin–orbit coupling) is a relativistic interaction of a particle's spin with its motion...

orbit and spin of a single particle can interact through spin–orbit interaction, in which case the complete physical picture must include spin–orbit coupling...

outermost orbital). These rules are empirical but they can be related to electron physics.: 10 : 260  When one takes the spin–orbit interaction into consideration...

approximating the model with a three-dimensional harmonic oscillator plus a spin–orbit interaction. A more realistic but complicated potential is known as the Woods–Saxon...

m_{\text{j}}} too form a set of good quantum numbers. To take the spin-orbit interaction is taken into account, we have to add an extra term in Hamiltonian...

Dresselhaus effect is a phenomenon in solid-state physics in which spin–orbit interaction causes energy bands to split. It is usually present in crystal systems...

Pd, where the spin-orbit interaction is strong). A transformation of spin currents consisting in interchanging (swapping) of the spin and flow directions...

spin resonance (EDSR) is a method to control the magnetic moments inside a material using quantum mechanical effects like the spin–orbit interaction....

of SU(2) Spin angular momentum of light Spin engineering Spin-flip Spin isomers of hydrogen Spin–orbit interaction Spin tensor Spintronics Spin wave Yrast...

and m is the vacuum mass of the electron. (This equation neglects the spin–orbit effect; see below.) In a crystalline solid, V is a periodic function,...

electrons is much greater than the spin–orbit interaction, which is in turn stronger than any other remaining interactions. This is referred to as the LS...

angular momentum applies to J, but not to L or S; for example, the spin–orbit interaction allows angular momentum to transfer back and forth between L and...

electrostatic potential, additional relativistic terms include the spin–orbit interaction, electron gyromagnetic ratio, and Darwin term. In ordinary QM these...

in the Dirac Hamiltonian. The splitting is a combined effect of spin–orbit interaction and asymmetry of the crystal potential, in particular in the direction...

effect from the non-relativistic calculation due to effects like spin–orbit interaction, zitterbewegung, and corrections to the kinetic energy. Chemistry...

locking, captured rotation, and spin–orbit locking. The effect arises between two bodies when their gravitational interaction slows a body's rotation until...

a phenomenon known as spin–orbit interaction. When one takes this coupling into account, the spin and the orbital angular momentum are no longer conserved...

in most cases from the simultaneous action of magnetization and spin–orbit interaction (exceptions related to non-collinear magnetic order notwithstanding)...

Magnetic materials with strong spin-orbit interaction, such as: LaFeAsO, PrFe4P12, YbRu2Ge2, UO2, NpO2, Ce1−xLaxB6, URu2Si2 and many other compounds, are...

technique was used to overcome the lack of spin-orbit interaction and materials issues to achieve spin transport in silicon. Because external magnetic...

{J_{2}} } Spin-Orbit interaction (also known as spin-orbit coupling) is a special case of angular momentum coupling. Specifically, it is the interaction between...

Lorentz transformations. Thomas precession gives a correction to the spin–orbit interaction in quantum mechanics, which takes into account the relativistic...

B_{\text{SO}}} is the spin–orbit characteristic field which can be considered a measure of the strength of the spin–orbit interaction and B e {\displaystyle...

can be illustrated in the case of the helium atom. Neglecting the spin–orbit interaction, the wavefunction for the two electrons can be written as Ψ = Ψ...

of its MS values are degenerate. This degeneracy is lifted when spin–orbit interaction is treated to higher order in perturbation theory, but still states...

key achievements include calculating relativistic effects on the spin-orbit interaction in a hydrogenic atom (Thomas precession), creating an approximate...

momenta. Due to the spin–orbit interaction in an atom, the orbital angular momentum no longer commutes with the Hamiltonian, nor does the spin. These therefore...

Rashba introduced a mechanism of spin-orbit interaction in magnetic media originating from the coupling of electron spin to microscopically inhomogeneous...

solution of the hydrogen atom with spin–orbit interaction. The spinor spherical harmonics Yl, s, j, m are the spinors eigenstates of the total angular momentum...

An orbital can be occupied by a maximum of two electrons, each with its own projection of spin m s {\displaystyle m_{s}} . The simple names s orbital, p...