Search
Menu
Photonics SuppliersBioluminescence Microscopes
Full company details
Photon etc.
Map5795 Ave. De Gaspe, #222
Montreal, QC H2S 2X3
Canada
Phone: +1 514-385-9555
View this profile on Instagram

@Photon etc. • Instagram photos And videos

Overview of Photon etc’s Laser Line Tunable Filter (LLTF) and Tunable Laser Source (TLS) applications

Author: Laura-Isabelle Dion-Bertrand Wednesday, February 21, 2024
The Laser Line Tunable Filter (LLTF) is a non-dispersive, widely tunable bandpass optical filter. At its core lies a volume Bragg grating (VBG) which efficiently selects and filters all but a narrow spectral window from a broadband light source. The LLTF provides a wider tunable range than other commercially available tunable filters. A single filter has the potential to offer full continuous tunability from 400 to 2500 nm, with an unrivalled out-of-band rejection of <-60 dB throughout this range. This instrument is the only commercially available tunable optical filter with an optical density higher than OD 5 over such a wide spectral range. The LLTF can be combined with most commercially available broadband light sources such as Laser-driven Plasma Light Sources (LPLS) or a high repetition rate femtosecond lasers (Ti:Sapphire). One of the most popular combinations is the coupling of the LLTF with commercially available supercontinuum such as NKT Photonics’ SuperK series to create a Tunable Laser Source (TLS).

More white papers
Download White Paper
File: Laser_Line_Tunable_Filter_LLTF_and_Tunable_Laser_Source_TLS_Applications.pdf (2.46 MB)
To download this white paper, please complete the *required fields before clicking the "Download" button.
Your contact information
* First Name:
* Last Name:
* Email Address:
* Company:
Address:
Address 2:
City:
State/Province:
Postal Code:
* Country:
Phone #:
Fax #:

Register or login to auto-populate this form:
Login Register
* Required

When you click "Send Request", we will record and send your personal contact information to Photon etc. by email so they may respond directly. You also agree that Photonics Media may contact you with information related to this inquiry, and that you have read and accept our Privacy Policy and Terms and Conditions of Use.
We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.