Buyer's Guide … the one with the Encyclopedia!

Where to Buy Dysprosium-doped Laser Gain Media

Dysprosium-doped laser gain media include both crystalline and glass materials, such as fluoride glasses, which are also used for fibers. These materials typically emit in the visible spectral region (yellow) and in the mid-infrared, making them useful for specialized laser applications.

More general products: rare-earth-doped laser gain media

Related product category: materials

Before You Buy: Learn About Dysprosium-doped Laser Gain Media

With its comprehensive resources, RP Photonics helps you to well prepare purchase decisions:

Some aspects to consider before buying dysprosium-doped laser gain media: doping concentration, doping uniformity, spectroscopic data, waveguide parameters, efficiency, optical quality.

Manufacturers and Other Suppliers for Dysprosium-doped Laser Gain Media

1 supplier for dysprosium-doped laser gain media is listed in the RP Photonics Buyer's Guide. Both manufacturers and distributors can be registered.

For making a list of those suppliers which you want to check more closely, first mark all suitable ones by clicking on the entries (making their background light gray). Then click on this button:

For documenting your supplier search, you may then print this page on paper or into a PDF document.

Suppliers with Advertising Package
presenting their product descriptions
CompanyProduct Description

Leader in fluoride glass and optical fiber technology

Le Verre Fluoré

Rue Gabriel Voisin
Campus de Ker Lann
35170 Bruz, Brittany
France
web link leverrefluore.com

E-mail:
dysprosium-doped laser gain media

Thanks to their high rare-earth solubility (up to 100,000 ppm) and low phonon energy, LVF fluoride fibers offer dozens of active transitions, enabling a broad range of applications from visible to the mid-infrared.

LVF dysprosium doped fibers are available as single-mode fibers.

LVF dysprosium-doped single-mode fibers can be used for laser emission at visible wavelengths (478 nm, 575 nm) and midinfrared wavelengths (3.24 µm, 4.3 µm).


Your company's products are not listed here? Get our advertising package to enjoy that and many other benefits!
All Suppliers

Leader in fluoride glass and optical fiber technology

Le Verre Fluoré

Rue Gabriel Voisin
Campus de Ker Lann
35170 Bruz, Brittany
France
web link leverrefluore.com

E-mail:
dysprosium-doped laser gain media

Thanks to their high rare-earth solubility (up to 100,000 ppm) and low phonon energy, LVF fluoride fibers offer dozens of active transitions, enabling a broad range of applications from visible to the mid-infrared.

LVF dysprosium doped fibers are available as single-mode fibers.

LVF dysprosium-doped single-mode fibers can be used for laser emission at visible wavelengths (478 nm, 575 nm) and midinfrared wavelengths (3.24 µm, 4.3 µm).


Click on a company entry to mark it.

Product entries of suppliers having an advertising package are displayed with a logo, product description and product image.

Users: if any displayed information is incorrect (e.g., a listed supplier does not offer such products) or legally problematic, please notify RP Photonics so that the problem can be solved.

Suppliers: you can report modified data using a form, which is provided via the button "Edit profile data" on your company profile page. You can obtain our advertising package for getting a much improved visibility and many more leads. (Tell your marketing people about it!)

Report additional suppliers for these products!
Report Additional Suppliers for These Products

If you are a supplier and want to be listed, please use the registration form.

An already registered supplier can use a customized form to report the full list of offered photonics products. That form is reachable with a link at the bottom of the supplier's profile page.

Anyone, not only suppliers themselves, can report additional suppliers. If possible, please provide a web address showing that this supplier indeed offers such products.

Company:
URL:
Comments:
Prove that you are a human being: What is 7 + 5?


If you like our Buyer's Guide, share it with your friends and colleagues, e.g. via social media:

This sharing button is implemented in a privacy-friendly way!

At LinkedIn, follow our company page to keep track of our news!