+86-0755 21009302  
  ricky01@boxoptronics.com
Products
Home > Products > 780nm Femtosecond Pulse Fiber Laser

780nm Femtosecond Pulse Fiber Laser Manufacturers

We've one of the most advanced generation tools, experienced and qualified engineers and workers, recognized good quality manage systems and a friendly skilled product sales workforce pre/after-sales support for 780nm Femtosecond Pulse Fiber Laser, We warmly welcome clients from all around the world for almost any sort of cooperation with us to build a mutual advantage potential. We've been devoting ourselves wholeheartedly to supply consumers the very best company.
780nm Femtosecond Pulse Fiber Laser, Our company has already have pass the ISO standard and we're fully respect our customer 's patents and copyrights. If the customer provides their own designs, We will guarantee that they will likely be the only one can have that merchandise. We hoping that with our good products can bring our customers a great fortune.

Related Products

Hot Products

  • 1550nm High Power Nanosecond Pulsed Fiber Laser

    1550nm High Power Nanosecond Pulsed Fiber Laser

    The 1550nm High Power Nanosecond Pulsed Fiber Laser uses a high-power gain fiber module and cooperates with a dedicated drive and temperature control circuit to output high-peak and high-energy laser pulses. The laser wavelength and power are stable, and the modular design is convenient for system integration. It can be used in laser radar, distributed optical fiber sensing systems, etc.
  • 976nm 10W 20W CW Diode Laser Bare Chip

    976nm 10W 20W CW Diode Laser Bare Chip

    The 976nm 10W 20W CW Diode Laser Bare Chip, output power from 10W to 20W, long lifetime, high efficiency, widely used in Industrial pump, Laser illumination, R&D and other fields.
  • Radiation Resistant Erbium Doped Fiber

    Radiation Resistant Erbium Doped Fiber

    BoxOptronics Radiation Resistant Erbium Doped Fiber has good anti-radiation characteristics, which can effectively reduce the impact of high-energy ion radiation on erbium-doped fiber. The fiber has good consistency. It can be pumped by 980 nm or 1480 nm, and can realize low-loss connection with communication optical fiber.
  • 1550nm 20mW SM Fiber Coupled Laser Diode

    1550nm 20mW SM Fiber Coupled Laser Diode

    1550nm 20mW SM Fiber Coupled Laser Diode is mainly used as the optical signal for high-capacity long-distance optical communication, as well as a wide range of new applications such as fiber sensing, 3D sensing, gas sensing, and disease diagnosis such as respiratory and vascular monitoring. In the field of gas sensing, it is used as the light source for gas sensors that detect methane gas leaks around factory pipes.
  • 1470nm DFB Pigtailed Laser Diode With Single Mode Fiber

    1470nm DFB Pigtailed Laser Diode With Single Mode Fiber

    The 1470nm DFB Pigtailed Laser Diode With Single Mode Fiber consists of Distributed Feedback (DFB) lasers, having a fiber pigtail precisely attached for optimum coupling efficiency. This 1550nm center wavelength version has a typical 1mW~4mW of output power and includes a back facet photodiode, and an integrated optical isolator. The 9/125 single mode fiber pigtail is terminated with an FC/APC or FC/PC style fiber optic connector. Applications include high-speed data and telecommunications systems and instrumentation, and optical instruments requiring a laser diode light source.
  • 1390nm DFB Laser Diode SM Fiber TEC

    1390nm DFB Laser Diode SM Fiber TEC

    The 1390nm DFB Laser Diode SM Fiber TEC is generally applied for stabilizing or modulating light source. In addition, the high stability laser source can be used for testing apparatus and OTDR equipment. The laser diode is composed of a CWDM-DFB chip, built-in isolator, built-in monitor photodiode and TEC cooler, and SC/APC,SC/PC, FC/APC,FC/PC optical fiber connector. Customers can select the length of optical fiber and pin definition based on actual demand. The output power is available from 1MW, 1270nm~1610nm CWDM wavelength available.
  • Related Blog
  • Reviews

  • About the technical indicators of optical power meters, light sources, OTDRs, and spectrum analyzers

  • Semiconductor laser diode application

    With the development of technology and process, the semiconductor laser diodes currently in practical use have a complicated multilayer structure.

  • The Function Fiber Optical Module

    Fiber optic module can be divided into fiber optical receiver module, fiber optical transmission module, fiber optical transceiver module and fiber optical transponder module.

  • What is the beat length of optical fiber?

    For polarization-maintaining (PM) optical fiber, assuming that the polarization direction of the input linearly polarized light is in the middle of the fast axis and the slow axis, it can be decomposed into two orthogonal polarization components. As shown in the figure below, the two light waves initially have the same phase, but because the refractive index of the slow axis is greater than that of the fast axis, their phase difference will increase linearly with the propagation distance.

  • New anti-drone laser weapon

    At the 2023 Indo-Pacific International Maritime Exhibition, Australian Optronic Systems demonstrated its newly developed anti-drone soft-kill solution for the first time.

  • Application of Fiber Random Laser in Distributed Sensing

    Compared with discrete optical fiber amplification technology, Distributed Raman Amplification (DRA) technology has shown obvious advantages in many aspects such as noise figure, nonlinear damage, gain bandwidth, etc., and has gained advantages in the field of optical fiber communication and sensing. widely used. High-order DRA can make the gain deep into the link to achieve quasi-lossless optical transmission (that is, the best balance of optical signal-to-noise ratio and nonlinear damage), and significantly improve the overall balance of optical fiber transmission/sensing. Compared with conventional high-end DRA, DRA based on ultra-long fiber laser simplifies the system structure, and has the advantage of gain clamp production, showing strong application potential. However, this amplification method still faces bottlenecks that restrict its application to long-distance optical fiber transmission/sensing

Send Inquiry

Copyright @ 2020 Shenzhen Box Optronics Technology Co., Ltd. - China Fiber Optic Modules, Fiber Coupled Lasers Manufacturers, Laser Components Suppliers All Rights Reserved.