Photos of Assorted Helium-Neon Lasers

Note: Photos of Hewlett Packard HeNe lasers have moved to their own wing of the gallery.

• Helium-Neon Laser Heads, Tubes, and Power Supplies (Gallery)

  (The following photo provided courtesy of: Curt Graber (cgraber@fwi.com).)

  • View 01 - Various HeNe laser tubes, 3 to 25 mW output and PSUs, 12 VDC and 120/240 VAC.

  (The following photo provided courtesy of: joerut (joerut@epix.net).)

  • View 02 - Uniphase model 1201-1 HeNe laser power supply. This unit runs off 110 VAC and will power a 1 to 5 mW tube. Front panel has standard Alden HV connector, power (key) switch, and power-on indicator.

  (The following photo provided courtesy of: Jeff Thomas (jthomas@amug.org).)

  • View 03 - Old (>25 years) Hughes HeNe internal mirror laser tube, possibly a prototype. The output power would probably have been about 3 to 5 mW though I doubt it is still working. Approximate dimensions are 12" x 1.4". Note all glass construction and electrical connections only at the anode-end of the tube.

  (The following 2 photos provided courtesy of: Wes Ellison (ellison@falcon.cc.ukans.edu).)

  • View 04 - Three Melles Griot HeNe laser tubes in a row.
  • View 05 - One of them being tested.

  (The following photo provided courtesy of: Steve Thatcher (fizzbin@worldnet.att.net).)

  • View 06 - Really cute little Melles Griot HeNe tube under power. Its size is about 5-1/4" x 1". Not the smallest HeNe laser you can find (some are only 4" x 5/8") but close.

  (The following 2 photos provided courtesy of: Daniel Ames (dlames2@aol.com).)

  • View 07 - Melles Griot style external mirror HeNe tube. This would appear to be similar to the more conventional HeNe tubes above except that instead of integral mirrors, it has Brewster windows. In addition, the gas fill merits attention: He-3 and Ne-22 (the common helium isotope is He-4 and neon is Ne-20). So, the lasing wavelength is likely to be non-standard.

  • View 08 - Closeup of anode-end Brewster assembly.

  (The following photo provided courtesy of: Dave (Ws407c@aol.com).)

  • View 09 - Toshiba HeNe tube similar or identical to a model LG-3217. Note all glass construction (non-adjustable mirrors) and internal Brewster window to produce polarized beam. Both electrical connections exit from one. The output beam dot and slight reflection from the internal Brewster window are visible in this photo. This type of HeNe tube was used in some Sony laserdisc players. See: "Assorted Laserdisc Player Components" in the Photos of Miscellaneous Lasers, Components, and Accessories wing for an example.

  (The following 2 photos provided courtesy of: Don Noonan (don.noonan@powernetworks.com).)

  This is a HeNe tube with a green output at 543.5 nm, And, you thought all HeNe lasers were red, huh? :) It must be different due to the color of the bubble wrap. ;-)

  • View 10 - 1.5 to 2 mW GREEN (543 nm) HeNe tube. Note that the size (about 18" long) compares to a typical 10 mW red HeNe laser.

  • View 11 - Tube powered up with perfectly normal pinkish orange discharge. The only way to tell it is a special tube is by the color of the output (green!) and/or by the transmission of the mirrors (probably orange or red). (Actually, due to a slightly different gas-fill ratio and likely the use of istopically pure He and Ne (possibly He3 and Ne22), the color tends to be a bit more pinkish than the typical red HeNe laser discharge.)

  (The following photo provided courtesy of: Keith (kee@asu.edu).)

  Here are three more 'other color' HeNe tubes. The top one is a Hughes style yellow (594.5 nm) tube, the middle one is also supposed to be a yellow HeNe laser tube but this sample produces some orange (604.6 nm) as well, and the bottom one is a green (543.5 nm) tube which also has a built-in three-screw mirror adjuster on its OC.

  • View 12 - Three HeNe tubes of a different color side-by-side.

  The following two photos are of a HeNe tube and power supply (or what's left of the power supply) probably from a HeNe laser based laser pointer. I just couldn't resist buying this on Ebay! The tube in the photos below is actually being powered from a separate supply - the seller made no claims as to the functionality of what is visible. And, for good reason as it was dead when I got it. I have since cleaned up the HeNe tube good as new and repaired the power supply. See the Laser FAQ section: HeNe Laser Power Supply from HeNe Laser Pointer (IC-HI3) for a complete schematic and more detailed description of my experiences with this power supply, circuit operation, and its repair.
  • View 13 - Cute little Melles Griot HeNe laser tube (similar to model 05-LHR-122) and power supply clump. The inverter is on the left and the thing that looks like a black end-cap is actually its PWM controller conformal coated with rubber to keep out the curious. The HeNe tube puts out about 1.1 mW.

  • View 14 - Closeup of inverter portion of HeNe laser pointer laser power supply. Note how LARGE the main filter caps (part of the voltage doubler) look in this photo. :) They are actually quite LARGE!

• Demonstration Helium-Neon Laser (Gallery)

  This is a really cute little demonstration see-through HeNe laser. It is Scientific Laser Corporation model SLC.8MWCLR.

  (These 3 photos provided courtesy of: Darrel Grubbs (dgrubbs@netdoor.com).)

  • View 01 - Overall view of demonstration HeNe laser. The HeNe tube and ballast resistor (!!) are clearly visible. The circuit board on the right appears to be the AC-DC power supply that feeds the actual HeNe laser power supply which is barely visible on the lower deck.

  • View 02 - Another view.

  • View 03 - Side view of a similar unit in under power.

• Bell Labs Optical Communications Demonstrator (Gallery)

  Bell Labs developed and produced some number and variety of portable demonstrators to promote the idea of optical communications. At least some of these had an actual working HeNe laser based on a two-Brewster laser tube with external mirrors in adjustable mounts, and power supply in a self-contained unit with orange Plexiglas cover over the tube. Some included a modulator with a separate receiver based on a solar cell. These demonstrators came packed in a handy traveling salesman's type sample case. :)

  I don't know for sure if all of these had working lasers, but, now I do have the remains of one of the laser-only units, so that confirms the presence of real lasers in at least some models. The tube is broken but it indeed was a complete working HeNe laser at one time. The external mirrors look pristine, which is probably just as well since they are likely soft-coated can cannot be cleaned. The mirror mounts are, well, funky. The mirrors are attached to a spring flexure with three screws with tapered ends (user accessible!) entering from the mount's edge at the 12, 4, and 8 o'clock positions. I have little doubt that if I mounted almost any two-Brewster HeNe laser tube between the mirrors, it would lase. I may do just that someday, at least as a test. Of course, if someone wanted to donate or build a an historically authentic HeNe laser tube to go in there, that would be even better. :) I couldn't find any dates on the unit but it must be quite old.

  The power supply for the HeNe laser tube is very simple - just a high voltage transformer (about 3,000 VRMS) feeding a bridge rectifier consisting of 4 series pairs of 426J-263 diodes (whatever they are) with a single 0.1 uF, 4 kV capacitor and a series pair of 4.64M ohm bleeder resistors across its output. The ballast is a 75K ohm 25 W resistor and there is a current meter in the negative return. Although it reads 50 mA full scale, the ballast resistor would have turned to smoke long before this current was reached - just over 18 mA would result in 25 W dissipation in the resistor. Given the relatively small diameter of the bore (about 2 mm), 10 or 15 mA would probably be the normal operating current. Since there is no adjustment for tube current, it's not clear why a meter is needed at all. If the tube lights up, it's operating correctly, go fiddle with the mirror adjustments if there is no laser beam! :) The 0.1 uF capacitor doesn't really provide much smoothing, so the result is closer to pulsed DC at 120 Hz. Thus the tube must restart on every half cycle. (There is a wire wrapped around the bore connected to the positive lead, presumably to help this. Here's the circuit diagram:

             D1    D2                      75K 25W
   T1 +--+---|>|---|>|------+------+----+----/\/\----+--+
   ||(   |                  |      |    |            |  |Tube+
   ||(   +---|<|---|<|---+  |      |    /            |.-|-.
   ||(       D3    D4    |  |      |    \ 4.64M      ||   |
   ||(                   |  |      |    /            ||   |
   ||(  T1: 3kV          |  |     _|_   \            ||   | LT1
   ||(  D1-D8: 426J-263  |  |  C1 ---   |            ||   |
   ||(                   |  | .1 uF|    \            ||   |
   ||(                   |  |  4 kV|    / 4.64M      |||_||
   ||(       D5    D6    |  |      |    \             '-|-'
      +--+---|>|---|>|---|--+      |    /      M1       |Tube-
         |   D7    D8    |         |    |  - +-----+ +  |
         +---|<|---|<|---+---------+----+----|50 mA|----+
                                             +-----+
  

  The primary-side components not shown consist of the fuse, power switch, and power indicator neon lamp.

  Note that there is no actual indication on the thing I have that it is from Bell Labs so I'm making an assumption based on its similarity to the one below.

  When I first acquired the photos of the demonstrator in the Gallery, I had doubts as to whether it actually had a working laser or just a cool-looking neon sign-type tube for show - and actually did the communications with a separate conventional modulated lamp (an arc lamp is mentioned in the description below and its presence doesn't make much sense otherwise). The ends of the tube are not clear in any of the photos and the bore looks too wide to be part of a functional HeNe laser tube. In addition, the mirrors look suspiciously clear but perhaps they are just missing on this unit. But the access holes in the Plexiglas cover for adjusting the mirrors that are present on mine are not visible on this one.

  However, for what follows, I have to assume it is a real laser - else I couldn't have included it in the "Assorted Helium-Neon Lasers" wing of the gallery! :)

  (These 8 photos and the following description (the three paragraphs) provided courtesy of: Rick Carpenter (Fiesta1043@aol.com).)

  This is a true collectors' item. It is a laser beam demonstrator kit used to show the future of communications via laser optics. Here is the story. This unit was rescued from the trash years ago at a Southern Bell office by my brother in law who is a retired telecommunications engineer for the phone company. This unit was used in community relations programs as a demonstrator unit to show how telephone signals could travel over laser light. We believe it is vintage 60's judging form the tube circuits and the original carrying case.

  The unit measures 20" long and has an amber colored Plexiglas cover over the laser tube. The only markings are 3 kV which resembles some of the vintage Western Electric stamps. At one end is access to a concentrated arc lamp, (Sylvania A2/T, a spare one is included in the case, just in case). The telephone hand set was plugged into the unit and the receiver of the beam is the small black cylindrical object seen in the photos. In the cylinder is a photocell like surface with wires that would probably connect to an amplifier and telephone receiver to get the signals on the other end.

  The demonstrator is packed in a Salesman's sample-like carrying case (genuine fiberboard construction!) along with 4 spare vacuum tubes (for the modulater?), fuses, telephone handset, and the optical receiver.

  • View 01 - Overall view of laser comm demonstrator powered up.

  • View 02 - View with amber Plexiglas cover removed. The HeNe tube (if that's what it is) construction is ancient. Note that while the color of the discharge in tube bore appears yellow, according to Rick, it is actually red (amazing what digital cameras will do!). The red color, indicates, not surprisingly, that the tube is gassy and would need to be refilled. It's amazing that there is any gas left after 30 or more years! (This actually lends credibility to the idea it is actually a neon sign tube which would have been hard-sealed even in those days - HeNe laser tubes were of soft-seal construction until much later.) In any case, replacement isn't really an option as it wouldn't look nearly as cool! Better to have it glow the wrong color and not lase, than to have some modern barcode scanner tube in its place. :)

  • View 03 - Demonstrator with accessories. The black thing that looks a a bit like a caulking gun is the optical receiver.

  • View 04 - View from output end.

  • View 05 - View from other end. :)

  • View 06 - The controls and inputs. Note multiple possible signal sources.

  • View 07 - Interior of electronics chassis showing arc lamp and power transformer. I don't know what purpose the lamp serves other than possibly to aim the device (the lamp holder is on a mount that could be adjusted for optimal focus or collimation). (Or, as noted, that it actually produces the communications beam and there is no laser involved.)

  • View 08 - Everything nicely packed in the Salesman's sample case. :)

• Aerotech LS2P Helium-Neon Laser (Gallery)

  (These 5 photos provided courtesy of: Mark Buckles (markbkls@cts.com).)

  This is a set of older Aerotech self contained HeNe lasers, probably around 2 to 3 mW (by the size and model number, despite what the CDRH sticker says about Class IIIb and 25 mW max!). They date from 1980 and thus I am impressed that they work at all. However, apparently after a few minutes, they start flickering indicating a tube pressure problem (probably high from leakage of the soft-seal mirrors).

  • View 01 - A pair of Aerotech LS2P HeNe lasers.
  • View 02 - HR-end.
  • View 03 - OC-end.
  • View 04 - Interior view with output beam.
  • View 05 - Interior closeup.

• Optics Technology Model 170 Helium-Neon Laser (Gallery)

  Dr. Narinder Kapany founded Optics Technology, Inc. in 1960 and was Chairman of the Board, President, and Director of Research until 1972. The company made lasers and fiber optic assemblies for a wide range of specialties, and is still in business. One of Dr. Kapany's hobbies is sculpture, which may explain the extravagant industrial design which went into the case of the Model 170 laser.

  (These 8 photos and the following description provided courtesy of: Lisa Ledger (pontiac1@jps.net).)

  I was going to list this with the statement "Cutting Edge Technology" until I realized the pun. This was a true state of the art piece of equipment from the early 1970's. It came from the estate of a NASA engineer. It was made by Optics Technology Inc., out of Palo Alto, California.

  I wasn't sure of exactly what I had, but luckily I live down the street from a high tech laser company whose engineers were more than happy to take a look at this. Once they had the top off, this drew them like bees to honey! This laser has an elaborate glass tube with Epoxy seals and of course, after all this time, the gasses have all leaked out/air has leaked in, whatever. The engineers thought it may have generated a 3 mW beam and showed me the present day equivalent, which was about the size of a very long pencil. They finally proclaimed this as an extremely interesting relic!

  • View 01 - Overall view of laser head and power supply.

  • View 02 - Interior of laser head. View is from OC-end. Note fancy tube with dual side-arms.

  • View 03 - Closeup of HR-end, view 1. Note micrometer tube alignment adjuster. I believe this is only for centering the beam, not actual (internal) mirror alignment.

  • View 04 - Closeup of HR-end, view 2.

  • View 05 - Closeup of center area, view 1.

  • View 06 - Closeup of center area, view 2.

  • View 07 - Closeup of OC-end, view 1. The brown object is the high voltage pulse transformer for starting the tube.

  • View 08 - Closeup of OC-end, view 2.

• Gaertner/American Optical 3100 Helium-Neon Laser 1 (Gallery)

  This is a vintage external mirror HeNe laser with a relatively wide bore and a heated filament-cathode. The Americal Optical Corporation model 3100 HeNe laser is probably made by Gaertner as their name also appears on the sample I have. The AO-3100 is (described in the chapter: Helium-Neon Lasers of Sam's Laser FAQ (section: "A Really Old HeNe Laser").

  These five photos show the details of two dead units.

  (The following photo provided courtesy of: Lance Ward (lance@acd.net).)

  • View 01 - Montage showing the exterior and interior of laser. The two side-arms contain the cathode which is a heated tungsten coil filament and the anode which is just the getter support wire and the getter itself.

  (The following four photos provided courtesy of: Gene S. Berkowitz (gene.berkowitz@comcast.net).)

  • View 02 - Overall view of AO 3100 laser.

  • View 03 - Interior view of AO 3100 laser.

  • View 04 - Power supply view 1.

  • View 05 - Power supply view 2.

• Gaertner/American Optical 3100 Helium-Neon Laser 2 (Gallery)

  These 7 photos are of a working sample I now have. It was contributed by Phil Bergeron at the USF Physics lecture - Demonstration Facility, Tampa, FL. Thanks Phil! :)

  The color rendition of my digital camera isn't very good. The color in the main bore and larger sections of tubing actual should look close to that in normal HeNe lasers. But the cathode glow (the bright blob) is actually more yellow (though not qutie the yellow in these photos). :)

  • View 01 - External view of working AO3100.

  • View 02 - Powered up with cover removed.

  • View 03 - View of heated (filament) cathode.

  • View 04 - Closeup of heated cathode.

  • View 05 - Another view of heated cathode.

  • View 06 - View of anode assembly.

  • View 07 - Actual beam spot just to prove it really does lase - about 0.35 mW so far.

• Perkin Elmer 5200 HeNe Laser and 5202 Power Supply (Gallery)

  The is a really old HeNe laser made by Perkin Elmer. It consists of a two-Brewster tube with a heated filament in a laser head enclosure that looks like something out of James Bond. A separate power supply about the size of a PC mini-tower attaches via fat cable.

  is actually more yellow (though not qutie the yellow in these photos). :)

  • View 01 - Perkin Elmer 5200 laser head.
  • View 02 - Closeup of HR-end.
  • View 03 - Closeup of OC-end.
  • View 04 - Laser head disassembled.
  • View 05 - Closeup of left end of tube.
  • View 06 - Closeup of right end of tube.
  • View 07 - Front view of Perkin Elmer 5202 power supply (coming).
  • View 08 - Rear view of Perkin Elmer 5202 power supply (coming).
  • View 09 - Front view with cover removed.
  • View 10 - Interior view.
  • View 11 - Left/bottom interior view.
  • View 12 - Top/left interior view.

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  Helium-Neon Laser Heads, Tubes, and Power Supplies

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  Demonstration Helium-Neon Laser

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  Bell Labs Optical Communications Demonstrator

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  View 07 View 08

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  Aerotech Model LS2P Helium-Neon Laser

  View 01 View 02 View 03

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  Optics Technology Model 170 Helium-Neon Laser

  View 01 View 02

  View 03 View 04

  View 05 View 06

  View 07 View 08

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  Gaertner/American Optical 3100 Helium-Neon Laser 1

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  Gaertner/American Optical 3100 Helium-Neon Laser 2

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  Perkin Elmer 5200 HeNe Laser Head and 5202 Power Supply

  View 01 View 02 View 03

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