Langmuir (unit)


The langmuir is a unit of exposure to a surface and is used in ultra-high vacuum surface physics to study the adsorption of gases. It is a practical unit, and is not dimensionally homogeneous, and so is only used in this one field. It is named after American physicist Irving Langmuir.

Definition

The langmuir is defined by multiplying the pressure of the gas by the time of exposure. One langmuir corresponds to an exposure of 10−6 Torr during one second. For example, exposing a surface to a gas pressure of 10−8 Torr for 100 seconds corresponds to 1 L.
Similarly, keeping the pressure of oxygen gas at 2.5·10−6 Torr for 40 seconds will give a dose of 100 L.

Derivation

Exposure of a surface in surface physics is a type of fluence, that is the integral of number flux with respect to exposed time to give a number of particles per unit area :
The number flux for an ideal gas, that is the number of gas molecules passing through a surface of unit area in unit time, can be derived from kinetic theory:
where C is the number density of the gas, and is the mean speed of the molecules. The number density of an ideal gas depends the thermodynamic temperature and the pressure :
The mean speed of the gas molecules can also be derived from kinetic theory:
where m is the mass of a gas molecule. Hence
The proportionality between number flux and pressure is only strictly valid for a given temperature and a given molecular mass of adsorbing gas. However, the dependence is only on the square roots of m and T. Gas adsorption experiments typically operate around ambient temperature with light gases, and so the langmuir remains useful as a practical unit.

Usage

Assuming that every gas molecule hitting the surface sticks to it, one langmuir leads to a coverage of about one monolayer of the adsorbed gas molecules on the surface. In general, the sticking coefficient varies depending on the reactivity of the surface and the molecules, so that the langmuir gives a lower limit of the time it needs to completely cover a surface.
This also illustrates why ultra-high vacuum must be used to study solid-state surfaces, nanostructures or even single molecules. The typical time to perform physical experiments on sample surfaces is in the range of one to several hours. In order to keep the surface free of contaminations, the pressure of the residual gas in a UHV chamber should be below 10−10 Torr.