GAS-FILLED TUBES

You know that great effort is made to produce a perfect vacuum within electron tubes. But, even the best vacuum pumps and getters cannot remove all of the air molecules. However, the chances of an electron hitting a molecule in a near-vacuum are very slim because of the great distance between the molecules, compared to the size of the electron. An electron can pass between two molecules of air inside the tube as easily as a pea could pass through a circle with a diameter equal to that of the earth!

In some tubes, the air is removed and replaced with an inert gas at a reduced pressure. The gases used include mercury vapor, neon, argon, and nitrogen. Gas-filled tubes, as they are called, have certain electrical characteristics that are advantageous in some circuits. They are capable of carrying much more current than high-vacuum tubes, and they tend to maintain a constant IR drop across their terminals within a limited range of currents. The principle of operation of the gas-filled tube involves the process called ionization.