Fiber Laser Pump Lasers

Fiber Laser Pump Lasers Overview

Seed Lasers

Fiber lasers, like all other laser systems, require an excitation source to pump energy into the system to achieve population inversion and therefore stimulated emission.  For fiber lasers, this is done through optical pumping via fiber pumping, similar to how it is done in diode-pumped solid-state lasers.  The main difference between the two methods is the delivery method of the fiber laser pump.  This laser is traditionally coupled into a large core fiber which is then fused into a double clad fiber which is doped with the particular gain material of interest for that specific laser.  The double cladding allows for the high-power multi-mode fiber to be guided into the larger outer core at the same time as the single mode laser builds up in the smaller inner core.  Depending on the gain material that the fiber laser is doped with the absorption band may be wide or narrow which means that in some cases traditional high-powered laser diodes are but in other instances wavelength stabilized diodes are required.  On this page, you will find a list of all of the fiber laser pump lasers including both wavelength stabilized and unstabilized laser diodes.

RPMC has years of experience supporting Fiber Laser Pump Lasers applications, helping industry professionals select the right tool for the job.

Contact Us today to let one of our knowledgeable Product Managers assist you!

Type

Wavelength Selection

Power Selection

Mode

Narrow Linewidth

Series

Manufacturer

60 results found
Picture Part Number Type Wavelength (nm) Output Power (W) Mode Output Narrow Linewidth Pulse Energy (uJ) Pulse Width Rep Rate
BDL-CW1000: 915nm or 976nm Fiber-Coupled Direct Diode Laser BDL-CW1000 Turn-Key System 915, 976 1000.0 Multimode 600um MM Fiber No
BFL-CW1000 BDL-CW2000 Turn-Key System 915, 976 2000.0 Multimode 600um MM Fiber No
BDL-CW3000: 915nm or 976nm Fiber-Coupled Direct Diode Laser BDL-CW3000 Turn-Key System 915, 976 3000.0 Multimode 600um MM Fiber No
DS3: Fiber-Coupled Turn-Key Direct Diode Laser System DS3 Turn-Key System Multiple Wavelength Options Multiple Options Available Single Mode, Multimode Fiber Coupled Yes, No
K405E03CN-0.160W K405E03CN-0.160W Single Emitter 405 0.160 Multimode 40um MM Fiber No
K450F03FN-3.000W K445F03FN-3.000W Single Emitter 445 3.0 Multimode 105um MM Fiber No
K445FGRFN-200.0W K445FGRFN-200.0W Multi-Emitter 445 200.0 Multimode 200um MM Fiber No
K Series K445FTRFN-15.00W Single Emitter 445 15.0 Multimode 200um MM Fiber No
K445FTRFN-20.00W: 445nm Fiber Coupled Laser Diode K445FTRFN-20.00W Multi-Emitter 445 20.0 Multimode 105um MM Fiber No
K445FTRFN-50.00W: 445nm Fiber Coupled Laser Diode K445FTRFN-50.00W Multi-Emitter 445 50.0 Multimode 200um MM Fiber No

BDL Series

The BD BDLL Series is a high power direct diode turn-key system available in wavelengths of 915nm or 976nm. This easy to integrate, OEM laser diode module provides up to 3kW of power and unprecedented brightness.

K Series

K Series Lasers by BWT

The K Series of multiple single emitter fiber coupled diode lasers are available in wavelengths from 405nm thru 1550nm with up to 300W output powers. These multi-emitter high power and high brightness diode lasers include options for aiming beam, photo detector, TEC, fiber detector, thermistor and a variety of package types.

K Stabilized Series

K Stabilized Series by BWT

The K Stabilized Series of wavelength stabilized fiber coupled diode lasers are available in wavelengths from 793nm thru 976nm with up to 300W output powers. These multi-emitter high power and high brightness diode lasers include options for aiming beam, photo detector, TEC, fiber detector, thermistor and a variety of package types.

R Series

R1064SX0500

The R series of wavelength stabilized single mode and multimode laser diodes offer narrow wavelength spectrum in wavelengths from 633nm thru 1064nm. Package options range from components as basic as a TO-56 or 14-pin BF packaged diodes, to OEM modules including electronics, to UL/CE and IEC certified turn-key systems.