Work Function

EXAMPLE

For example, Caesium has ionization energy 3.9 eV and work function 1.9 eV.

W = -E_{tot}(N+1) + \{E_{tot}(N) + V(\infty) \} = - {\partial E_{tot} \over {\partial N} } + V(\infty) = - \mu + V(\infty)

E_{tot}(N+1) - E_{tot}(N) = {\partial E_{tot} \over {\partial N} } = \mu

\epsilon_F = \, \mu

Here V is vacuum level and F is Fermi level.

PHOTOELECTRIC WORK FUNCTION

The work function is the minimum energy that must be given to an electron to liberate it from the surface of a particular metal. In the Photoelectric Effect if a Photon with an energy greater than the work function is incident on a metal Photoelectric Emission occurs. Any excess energy is given to the electron as kinetic energy.

Photoelectric work function:

φ=hf_{0_{,

where h is Planck's Constant and f_{0_{is the minimum (threshold) frequency of the photon required for photoelectric emission.

THERMIONIC WORK FUNCTION

The work function is also important in the theory of Thermionic Emission , here the electron gains its energy from heat rather than photons. In this case, as for example that of an electron escaping from the heated negatively-charged filament of a Vacuum Tube , the work function may be called the thermionic work function. Tungsten is a very common metal for vacuum tube elements, with a work function of approximately 4.5 eV.

It depends on the orientation of the crystal and will tend to be smaller for metals with an open lattice, larger for metals in which the atoms are closely packed. The range is about 1.5–6 V . It is somewhat higher on dense crystal faces than open ones.

APPLICATIONS

In Electronics the work function is important for design of the Metal - Semiconductor junction in Schottky Diode s and for design of Vacuum Tube s.

The work function is also important in the theory of thermionic emission, here the electron gains its energy from heat rather than photons. In this case, as for example that of an electron escaping from the heated negatively-charged filament of a vacuum tube, the work function may be called the thermionic work function. Tungsten is a very common metal for vacuum tube elements, with a work function of approximately 4.5 eV.

It depends on the orientation of the crystal and will tend to be smaller for metals with an open lattice, larger for metals in which the atoms are closely packed. The range is about 1.5–6 eV. It is somewhat higher on dense crystal faces than open ones.

SEE ALSO

Free Energy for the Helmholtz free energy equation, which is the thermodynamic work, note that this work is not related to electron emission and is thus not directly related to the work function.

Electron Affinity . See [http://www.slac.stanford.edu/cgi-wrap/getdoc/slac-pub-8355.pdf NEA cathode] for an application to condensed matter.

EXTERNAL LINKS

Work functions of common metals

Work functions of various metals for the photoelectric effect

Contains some work functions for metals and the corresponding heat required to eject them by Thermionic Emission

Some work functions}}}}

	APPAREL
	BABY
	BEAUTY
	BOOKS
	CAR TOYS
	CELL PHONES
	DVD'S
	ELECTRONICS
	GOURMET FOOD
	GROCERIES
	HEALTH & PERSONAL
	HOME & GARDEN
	JEWELRY
	MUSIC
	MUSIC INSTRUMENTS
	OFFICE PRODUCTS
	SOFTWARE
	SPORTING GOODS
	TOOLS & HARDWARE
	TOYS
	VIDEO GAMES
	SHOPPING HOME

	MORE SHOPPING...

	CATEGORIES ABOUT WORK FUNCTION

	condensed matter physics

	fundamental physics concepts

Information About

Work Function