Milestone-Proposal:First Optical Fiber Laser and Amplifier
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To the proposer’s knowledge, is this achievement subject to litigation?
Is the achievement you are proposing more than 25 years old?
Is the achievement you are proposing within IEEE’s designated fields as defined by IEEE Bylaw I-104.11, namely: Engineering, Computer Sciences and Information Technology, Physical Sciences, Biological and Medical Sciences, Mathematics, Technical Communications, Education, Management, and Law and Policy.
Did the achievement provide a meaningful benefit for humanity?
Was it of at least regional importance?
Has an IEEE Organizational Unit agreed to pay for the milestone plaque(s)?
Has an IEEE Organizational Unit agreed to arrange the dedication ceremony?
Has the IEEE Section in which the milestone is located agreed to take responsibility for the plaque after it is dedicated?
Has the owner of the site agreed to have it designated as an IEEE Milestone? Yes
Year or range of years in which the achievement occurred:
Title of the proposed milestone:
First Optical Fiber Laser and Amplifier
Plaque citation summarizing the achievement and its significance:
In what IEEE section(s) does it reside?
IEEE Worcester County Section
IEEE Organizational Unit(s) which have agreed to sponsor the Milestone:
IEEE Organizational Unit(s) paying for milestone plaque(s):
Unit: IEEE Photonics Society
Senior Officer Name: Richard Linke
IEEE Organizational Unit(s) arranging the dedication ceremony:
Unit: IEEE Photonics Society
Senior Officer Name: Larry Nelson, Sr
IEEE section(s) monitoring the plaque(s):
IEEE Section: IEEE Photonics Society
IEEE Section Chair name: Richard Linke
Proposer name: Richard Linke
Proposer email: Proposer's email masked to public
Please note: your email address and contact information will be masked on the website for privacy reasons. Only IEEE History Center Staff will be able to view the email address.
Street address(es) and GPS coordinates of the intended milestone plaque site(s):
Town Common Southbridge Massachusetts
Describe briefly the intended site(s) of the milestone plaque(s). The intended site(s) must have a direct connection with the achievement (e.g. where developed, invented, tested, demonstrated, installed, or operated, etc.). A museum where a device or example of the technology is displayed, or the university where the inventor studied, are not, in themselves, sufficient connection for a milestone plaque.
Please give the address(es) of the plaque site(s) (GPS coordinates if you have them). Also please give the details of the mounting, i.e. on the outside of the building, in the ground floor entrance hall, on a plinth on the grounds, etc. If visitors to the plaque site will need to go through security, or make an appointment, please give the contact information visitors will need. The proposed site is in the Southbridge MA Town Common on Main Street directly across from the old American Optical main plant where the work took place. The Common is public land owned by Southbridge. On Jan 23, 2012 the Southbridge Town Council granted permission to place the Milestone plaque in the Common.
Are the original buildings extant?
Details of the plaque mounting:
How is the site protected/secured, and in what ways is it accessible to the public?
The site is open to the public.
Who is the present owner of the site(s)?
Town of Southbridge, MA
What is the historical significance of the work (its technological, scientific, or social importance)?
Elias Snitzer and colleagues developed the first working optical fiber laser and amplifier in 1963 at American Optical, drawing on his earlier work in optical fibers and his demonstration of the first solid-state laser made of glass in 1961. His ground-breaking combination of two young technologies, published in Applied Optics in 1964, was many years ahead of its time. The advent of optical fiber amplifiers was vital in building the high-speed backbone of the global telecommunications network, which carries our words, pictures and data around the planet. More recently, fiber lasers have become powerful tools in manufacturing, generating multikilowatt beams that can cut and weld materials from plastics to metals.
What obstacles (technical, political, geographic) needed to be overcome?
Maiman's demonstration of the ruby laser led to the development of lasers based on many other solids, as well as gas and semiconductor diode lasers. Solid-state lasers were particularly valued because they had higher gain than gases, and could be made larger in size than semiconductor diodes. However, that required growing large blocks of crystal, a time-consuming and expensive task. Snitzer drew on American Optical's expertise to make lasers from a much less costly material, glass doped with small amounts of neodymium. He then extended that work to make fiber lasers and amplifiers, which concentrated light in small volumes, enhancing their oscillation and amplification properties. Snitzer realized that potential, although at the time it was not obvious how fiber lasers or amplifiers would be used.
What features set this work apart from similar achievements?
Other early solid-state lasers, such as the ruby laser demonstrated by Theodore Maiman in 1960, another IEEE Milestone, were made of bulk materials. The fiber laser uniquely transmitted the light it generated along a light-guiding core, concentrating its energy in a small area inside the glass, and making it easy to transfer light from a fiber laser into a passive optical fiber for transmission. This became important when fiber-optic communications emerged in the 1970s, because optical signals needed to be amplified after passing through tens of kilometers of glass. Initially that required converting the signals into electronic form for amplification, but building upon Snitzer's work, David Payne and others developed optical fiber amplifiers that could directly boost signal strength across a wide range of wavelengths, allowing high-speed transmission across continents and under oceans. That technology is today the backbone of the global telecommunication technology. Fiber lasers also have proved exceptionally well suited for efficiently generating high-quality beams with powers reaching many kilowatts in strength, greatly expanding the applications of lasers in cutting, welding and other machining of materials from plastics to metals.
Supporting texts and citations to establish the dates, location, and importance of the achievement: Minimum of five (5), but as many as needed to support the milestone, such as patents, contemporary newspaper articles, journal articles, or chapters in scholarly books. 'Scholarly' is defined as peer-reviewed, with references, and published. You must supply the texts or excerpts themselves, not just the references. At least one of the references must be from a scholarly book or journal article. All supporting materials must be in English, or accompanied by an English translation.
Supporting materials (supported formats: GIF, JPEG, PNG, PDF, DOC): All supporting materials must be in English, or if not in English, accompanied by an English translation. You must supply the texts or excerpts themselves, not just the references. For documents that are copyright-encumbered, or which you do not have rights to post, email the documents themselves to email@example.com. Please see the Milestone Program Guidelines for more information.
Please email a jpeg or PDF a letter in English, or with English translation, from the site owner(s) giving permission to place IEEE milestone plaque on the property, and a letter (or forwarded email) from the appropriate Section Chair supporting the Milestone application to firstname.lastname@example.org with the subject line "Attention: Milestone Administrator." Note that there are multiple texts of the letter depending on whether an IEEE organizational unit other than the section will be paying for the plaque(s).