Helium-neon laser

Helium-neon laser

A helium-neon laser, usually called a HeNe laser, is a type of small gas laser. HeNe lasers have many industrial and scientific uses, and are often used in laboratory demonstrations of optics. Its usual operation wavelength is 632.8 nm, in the red portion of the visible spectrum. [GoldBookRef|title=helium–neon laser|file=H02768]

The gain medium of the laser, as suggested by its name, is a mixture of helium and neon gases, in a 5:1 to 20:1 ratio, contained at low pressure (an average 50 Pa per cm of cavity length [E.F. Labuda and E.I. Gordon, J. Appl. Phys. 35, 1647 (1964)] ) in a glass envelope. The energy or pump source of the laser is provided by an electrical discharge of around 1000 voltsFact|date=February 2007 through an anode and cathode at each end of the glass tube. A current of 5 to 100 mA is typical for CW operation.Verdeyen, J. T., "Laser Electronics", Third ed., Prentice Hall series in solid state physical electronics (Prentice Hall, Upper Saddle River, 2000) pp. 326-332] . The optical cavity of the laser typically consists of a plane, high-reflecting mirror at one end of the laser tube, and a concave output coupler mirror of approximately 1% transmission at the other end.

HeNe lasers are typically small, with cavity lengths of around 15 cm up to 0.5 m, and optical output powers ranging from 1 mW to 100 mW.

The red HeNe laser wavelength is usually reported as 632nm. However, the true wavelength in air is 632.816 nm, so 633nm is actually closer to the true value. For the purposes of calculating the photon energy, the vacuum wavelength of 632.991 nm should be used. The precise operating wavelength lies within about 0.002 nm of this value, and fluctuates within this range due to thermal expansion of the cavity. Frequency stabilized versions enable the wavelength to be maintained within about 2 parts in 1012Niebauer, TM: Frequency stability measurements on polarization-stabilized He-Ne lasers, Applied Optics, 27(7) p.1285] for months and years of continuous operation.

The laser process in a HeNe laser starts with collision of electrons from the electrical discharge with the helium atoms in the gas. This excites helium from the ground state to the 23S1 and 21S0 long-lived, metastable excited states. Collision of the excited helium atoms with the ground-state neon atoms results in transfer of energy to the neon atoms, exciting neon electrons into the 3s2 level repeat reference ] . This is due to a coincidence of energy levels between the helium and neon atoms.

This process is given by the reaction equation:

:He(21S)* + Ne + ΔE → He(11S) + Ne3s2*

where (*) represents an excited state, and ΔE is the small energy difference between the energy states of the two atoms, of the order of 0.05 eV or 387 cm-1, which is supplied by kinetic energy. repeat reference ] . The number of neon atoms entering the excited states builds up as further collisions between helium and neon atoms occur, causing a population inversion. Spontaneous and stimulated emission between the 3s2 and 2p4 states results in emission of 632.82 nm wavelength light, the typical operating wavelength of a HeNe laser. After this, fast radiative decay occurs from the 2p to the 1s ground state. Because the neon upper level saturates with higher current and the lower level varies linearly with current, the HeNe laser is restricted to low power operation to maintain population inversion repeat reference ] .

With the correct selection of cavity mirrors, other wavelengths of laser emission of the HeNe laser are possible. There are infrared transitions at 3.39 μm and 1.15 μm wavelengths, and a variety of visible transitions, including a green (543.365 nm, the so-called GreeNe laser), a yellow (593.932 nm), a yellow-orange (604.613 nm), and an orange (611.802 nm) transition. The typical 633 nm wavelength red output of a HeNe laser actually has a much lower gain compared to other wavelengths such as the 1.15 μm and 3.39 μm lines, but these can be suppressed by choosing cavity mirrors with optical coatings that reflect only the desired wavelengths.

The gain bandwidth of the laser is dominated by Doppler broadening, and is quite narrow at around 1.5 GHz for the 633nm transition ignore this text ] [http://www.repairfaq.org/sam/laserhen.htm#henhlc0 Sam's Laser FAQ] ] lasing on a single longitudinal mode. The visible output of the HeNe laser, and its excellent spatial quality, makes the HeNe a useful source for holography and as a reference for spectroscopy. It is also one of the benchmark systems for the definition of the meter [ [http://museum.nist.gov/object.asp?ObjID=50 Iodine Stabilized Helium-Neon Laser] at the NIST museum site] .

Prior to the invention of cheap, abundant diode lasers, HeNe lasers were used in barcode scanners. The HeNe laser was the first gas laser to be invented, by Ali Javan, William Bennett Jr. and Donald Herriott at Bell Labs, who in 1960 achieved continuous wave emission of the laser on the 1.15 μm wavelength line [Javan, A., Bennett, W. R. and Herriott, D. R.: [http://prola.aps.org/abstract/PRL/v6/i3/p106_1 "Population Inversion and Continuous Optical Maser Oscillation in a Gas Discharge Containing a He-Ne Mixture"] . "Phys. Rev. Lett." 6 3, 106-110 (1961).] .

ee also

*List of lasers

References

External links


Wikimedia Foundation. 2010.

Игры ⚽ Поможем сделать НИР

Look at other dictionaries:

  • Helium-Neon-Laser — Schematische Darstellung des Helium Neon Lasers Helium Neon Laser …   Deutsch Wikipedia

  • Helium-Neon-Laser — helio neono lazeris statusas T sritis radioelektronika atitikmenys: angl. helium neon laser vok. Helium Neon Laser, m rus. гелий неоновый лазер, m pranc. laser à mélange d hélium et néon, m; laser hélium néon, m …   Radioelektronikos terminų žodynas

  • helium-neon laser — helio neono lazeris statusas T sritis radioelektronika atitikmenys: angl. helium neon laser vok. Helium Neon Laser, m rus. гелий неоновый лазер, m pranc. laser à mélange d hélium et néon, m; laser hélium néon, m …   Radioelektronikos terminų žodynas

  • helium-neon laser — a laser with a mixture of ionized helium and neon gases as the active medium whose beam is in the red visible light spectrum at 633 nm; used as a guiding beam for lasers operating at nonvisible wavelengths …   Medical dictionary

  • Laser à hélium-néon — Laser hélium néon Un laser hélium néon est un laser à gaz de petite dimension. Il a de nombreuses applications scientifiques et industrielles, on l utilise aussi au laboratoire pour les démonstrations d optique. Il émet dans le rouge sur… …   Wikipédia en Français

  • Laser à hélium néon — Laser hélium néon Un laser hélium néon est un laser à gaz de petite dimension. Il a de nombreuses applications scientifiques et industrielles, on l utilise aussi au laboratoire pour les démonstrations d optique. Il émet dans le rouge sur… …   Wikipédia en Français

  • Laser hélium-néon — Un laser hélium néon est un laser à gaz de petite dimension. Il a de nombreuses applications scientifiques et industrielles, on l utilise aussi au laboratoire pour les démonstrations d optique. Il émet dans le rouge sur 632,8 nm… …   Wikipédia en Français

  • laser hélium-néon — helio neono lazeris statusas T sritis radioelektronika atitikmenys: angl. helium neon laser vok. Helium Neon Laser, m rus. гелий неоновый лазер, m pranc. laser à mélange d hélium et néon, m; laser hélium néon, m …   Radioelektronikos terminų žodynas

  • Laser HeNe — Laser hélium néon Un laser hélium néon est un laser à gaz de petite dimension. Il a de nombreuses applications scientifiques et industrielles, on l utilise aussi au laboratoire pour les démonstrations d optique. Il émet dans le rouge sur… …   Wikipédia en Français

  • Laser pumping — is the act of energy transfer from an external source into the gain medium of a laser. The energy is absorbed in the medium, producing excited states in its atoms. When the number of particles in one excited state exceeds the number of particles… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”