Hot Sale for 2um Cw Fiber Laser - 1.5um CoSF-D High Power Narrow Linewidth Single Frequency Fiber Laser (HP2/HP3) – Connet Laser

Short Description:


Product Detail

Connet Laser Technology Co., Ltd

Product Tags

Related Video

Feedback (2)

We'll make every effort and hard work being outstanding and excellent, and speed up our techniques for standing during the rank of global top-grade and high-tech enterprises for Erbium/Yetterbium Co-Doped Fiber Amplifier , 1.5um Cw Fiber Amplifier , Sbs , We, with open arms, invite all interested buyers to visit our website or contact us directly for further information.
Hot Sale for 2um Cw Fiber Laser - 1.5um CoSF-D High Power Narrow Linewidth Single Frequency Fiber Laser (HP2/HP3) – Connet Laser Detail:

Connet CoSF-D narrow linewidth single frequency fiber laser is a low-noise fiber laser independently developed by patented technology. It adopts the Distributed Feedback Bragg Grating (DFB) type fiber laser technology and has independent intellectual property to achieve stable linear polarization, single longitudinal mode and ultra-narrow linewidth single-frequency laser output. The unique Relative Intensity Noise (RIN) suppression technique guarantees the low noise operation of the CoSF-D narrow linewidth single frequency fiber laser.

Connet CoSF-D narrow linewidth single frequency fiber laser has excellent performance with the output optical spectrum linewidth of kHz level and the ultra-low frequency noise and intensity noise. The OSNR is greater than 50dB.

CoSF-D-HP2/HP3 high power narrow linewidth single frequency fiber laser internally adopts MOPA design, based on CoSF-D basic module, integrates low noise fiber amplifier and high power double-clad Er/Yb co-doped fiber amplifier to achieve the output power up to 50W.

 

Features:

● Ultra-narrow linewidth < 1kHz

● Stable single-frequency & single polarization operation

● No mode hopping, No bursting noise

● Low phase noise and low relative intensity noise

● Flexible design, multiple wavelengths optional

● Linear polarization output, high PER

 

Applications:

● Optical fiber sensing

● LiDAR

● Microwave photonics

● Cold atom physics 

● Laser spectroscopy

● Coherent communication

● Other scientific research

 

CoSF-D Series High Power Narrow Linewidth Single Frequancy Fiber


Product detail pictures:

Hot Sale for 2um Cw Fiber Laser -
 1.5um CoSF-D High Power Narrow Linewidth Single Frequency Fiber Laser (HP2/HP3)  – Connet Laser detail pictures


Related Product Guide:
‘Frequency combs’ ID chemicals within the mid-infrared spectral region | Laser Communication
Global $1.83 Billion Mid-infrared Lasers Market Outlook 2017-2018 & 2026 | Single Frequency Semiconductor Laser Source

Sticking for the perception of "Creating products of top quality and producing friends with people today from all around the world", we constantly place the desire of shoppers to start with for Hot Sale for 2um Cw Fiber Laser - 1.5um CoSF-D High Power Narrow Linewidth Single Frequency Fiber Laser (HP2/HP3) – Connet Laser, The product will supply to all over the world, such as: Italy , Puerto Rico , Bangkok , Our company sets up several departments, including production department, sales department, quality control department and sevice center,etc. only for accomplish the good-quality product to meet customer's demand, all of our products have been strictly inspected before shipment. We always think about the question on the side of the customers,because you win,we win!

Connet Laser Technology Co., Ltd is a high-tech enterprise founded in 2007, which specializes in the development and production of laser source, fiber laser, optical fiber amplifier and the related products.

  • This supplier stick to the principle of "Quality first, Honesty as base", it is absolutely to be trust.
    5 Stars By Roxanne from Oslo - 2016.11.01 17:04
    We have been cooperated with this company for many years, the company always ensure timely delivery ,good quality and correct number, we are good partners.
    5 Stars By Maggie from Borussia Dortmund - 2016.06.16 18:23