Energy bands nearly free electron model electron diffraction and energy gap bloch theorem the central equation emptylattice approximation tightbinding model see chap 9 nfe model is good for na, k, al etc, in which the lattice potential is only a small perturbation to the electron sea. Ravindran, phy075 condensed matter physics, spring 20 16 july. Free electron model energy bands consist of a large number of closely spaced energy levels. The dashed curve corresponds to the case of free 1 1. Nearly free electron superatom states of carbon and boron. The free electron empty lattice approximation forms the basis of the band structure model known as nearly free electron model. One corresponding to a plane wave, or a free electron, and another corresponding to a periodic correction factor. Handout 2 sommerfeld model for metals free fermion gas in this lecture you will learn. The nearly free electron model is a modification of the freeelectron gas model which includes a weak periodic perturbation meant to model the interaction between the conduction electrons and the ions in a crystalline solid. The theory was originally proposed in 1900 to describe and correlate the electrical and thermal properties of metals. Tightbinding model 1 electronic models find, read and cite.
For example, it has been reported that the nearly free electron nfe states can be energetically found near. Although the free electron model is a great oversimplification of the reality, surprisingly in many cases it works pretty well, so that it is able to describe many important properties of metals. This model, like the freeelectron model, does not take into account electron electron interactions. According to the classical free electron theory the value of specific heat of metals is given by 4. Modulation of nearly free electron states in hydroxylfunctionalized mxenes. If 0, we assume the electron to be traveling in a weak potential, and can thus expand the wave function into two parts. However, the free electron circles c 2 and c 3 intersect the zone boundaries. Treating the nearly free electron model using degenerate perturbation theory has been shown on the blackboard during lectures 3. Energy spectrum of a nearlyfree electron model in 1d the eigenstates of free problem in 1d.
Handout 2 sommerfeld model for metals free fermion gas. Simplest extension of the electron gas model nearly free electron gas very small potential variation with the. In solidstate physics, the nearly free electron model or nfe model is a quantum mechanical model of physical properties of electrons that can move almost. Electronic structure 103 in the following chapter, we will also learn some experimental techniques that are currently used to investigate the electronic properties of the bulk and the surface. So it leads to much larger predicted quantities than that is actually observed. Using density functional theory dft, it is revealed that the nearly free electron nfe states are near the fermi levels in hydroxyl oh functionalized mxenes. The phenomena such a photoelectric effect, compton effect and the black body radiation couldnt be explained by classical free electron theory. Free electron model a free electron model is the simplest way to represent the electronic structure of metals. Nearly free electrons in a 5d delafossite oxide metal. Drude model fails to predict hall and conductivity for all metals except for alkaline metals metal li na k ag au al inr h en 0780. That is, the electron eigenstates are initially assumed to be completely delocalized plane waves for free electrons, then a periodic potential is turned on to.
This model is ok for metals, but does not work for semiconductors since the effects of periodic potential have been. The nearlyfree electron model university of oxford. These free electrons move freely throughout the lattice and hence are termed as electron gas. In the nearly free electron model, we take the opposite approach. Derive the electron band structure when the interaction with the lattice is weak using the nearly free electron model describe what momentum states of particles in a crystal may couple through the periodic lattice potential.
By firstprinciples theory we study the nearly free electron nfe states of carbon and boron nitride nanotubes. Tr 3 pm4 pm please help your instructor by doing your work neatly. Within the nearly free electron model we start from the dispersion relation of free electrons and analyze the effect of introducing a weak lattice potential. Behavior of free electron is different from electron in the potential field of the crystal as current is due to flow of charge, electron behavior in external electric field is important 9. Freeelectron model of metals, in solidstate physics, representation of a metallic solid as a container filled with a gas composed of free electrons i. Solutions due wednesday, 11 at the time of the class instructor. Moreover, the sharp spectral features observed in photoemission remain well defined with little additional broadening for more than 500 mev below e f, pointing to suppressed electronelectron scattering. The free electron approximation remains a good approximation well away from the edges of the brillouin zone only wavevectors close to a multiple of. Modulation of nearly free electron states in hydroxyl. Free electron theory of conductor was proposed by p.
Recall nature of free electron gas free electrons in box of size l x l x l artificial but useful. Introduction to the electron theory of metals uichiro mizutani department of crystalline materials science, nagoya university. Sommerfeld theory of metals arnold sommerfeld 18681951 ece 407 spring 2009 farhan rana cornell university does not say anything about the electron energy distribution in metalsare all electrons moving around with about the same energy. This is true for any k,but a periodic perturbation has nonzero matrix elements only between particular states. Energy bands nearlyfree electron model electron diffraction and. In solidstate physics, the free electron model is a simple model for the behaviour of. The weak periodic potential causes a distortion of the fermi circle of a twodimensional electron gas as it approaches the zone boundary. Solid state physics nearly free electron model contd. Metals, such as copper and aluminum, are held together by bonds that are very different from those of molecules. The energy e of free electrons which is plotted versus k in fig. Free electron model drudesommerfeld model when electrons move freely in the lattice without any obstacle like potential due to ions or any. Rather than sharing and exchanging electrons, a metal is essentially held together by a system of free electrons that wander throughout the solid. Given its simplicity, it is surprisingly successful in explaining. Note, however, that although the free electron wave vector is simply p, where p is the momentum of the electron, in the bloch case k is not proportional to the.
Because there is an energy gap between the electron states in the zone. Drawing a dispersion relation i the reduced zone scheme for free electron and nearly free electrons case things we need to know. Well examine the assumption of a constant potential. Quantum free electron theory was proposed by arnold sommerfeld. One dimensional electron energy bands for the nearly free electron model shown in the extended brillouin zone scheme. Maslov department of physics, university of florida. Using density functional theory dft, it is revealed that the nearly. Also according to this theory the value of electronic specific heat is equal to 32 r. Quantum free electron theory of metals science key. Free electrons form a fermi sea lecture 4 isolated atoms have discrete orbitals lecture 5 when orbitals hybridize we get lcao or tightbinding band structures lecture 7 the nearly free electron model the topic of this lecture helps to understand the relation between tightbinding. Electrons in a periodic potential nearly free electron. Simple bandstructure diagrams for a one dimensional periodic solid in the limit vr 0 expressed in the extended zone a, repeated zone b, and reduced zone c schemes.
The treatment of a metal as containing a gas of electrons completely free to move within it. In the nearly free electron approximation, interactions between electrons are completely ignored. In the lectures we have derived two simple rules, which are away from brillouinzone boundaries the electronic bands i. Nearly free electron approximation and tight binding. Free electron model assumes electrons are free to move within the metal but are confined to the metal by potential barriers. A natural extension of the freeelectron model is the nearly free electron nfe model, which applies to crystals, because it is assumed that the electrons are subjected to a periodic potential inside them.
Although the free electron model is a great oversimplification of the reality, surprisingly in many cases it works pretty well, so that it is able. As per his investigation, the behavior of free electron in different possible energy states is explained, how the large number of electrons are disturbed in the energy states. Every algebraic nal result must be supplemented by a check of units. Nearly free electron in the tight bonding model, the electron eigenstates are initially assumed to be localized around the atoms, then a hopping term is introduced to allow them to delocalize. That is, the electron eigenstates are initially assumed to. Sc2coh2, are semiconductors and the nfe states are conduction bands. The simplest model of a metal is the free electron model.
Sommerfield model for free electron theory 11 success of quantum free electron theory according to classical theory, which follows maxwellboltzmann statistics, all the free electrons gain energy. This is totally inexplicable within the free electron model. Atomic selectrons are delocalised due to overlap of outer orbits. Together, our findings establish ptcoo2 as a model nearlyfreeelectron system in a 5 d delafossite transitionmetal oxide. What is the difference between nearly free electron model, free. Twodimensional transition metal carbides and nitrides named as mxenes and their functionalized ones exhibit various physical and chemical characteristics.
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