+86-0755 21009302  
  ricky01@boxoptronics.com
Products
Home > Products > 915nm 20W Pump Laser Diode 105µm 0.22NA Fiber Coupled Laser Diode

915nm 20W Pump Laser Diode 105µm 0.22NA Fiber Coupled Laser Diode Manufacturers

Our commission should be to provide our end users and clients with very best excellent and aggressive portable digital products and solutions for 915nm 20W Pump Laser Diode 105µm 0.22NA Fiber Coupled Laser Diode, We will do our greatest to meet or exceed customers' demands with top quality items, advanced concept, and productive and timely company. We welcome all customers.
915nm 20W Pump Laser Diode 105µm 0.22NA Fiber Coupled Laser Diode, Ought to any of these products be of curiosity to you, make sure you let us know. We will be satisfied to provide you a quotation on receipt of one's in depth specifications. We have now our personalized experienced R&D enginners to meet any of one's requriements, We appear forward to receiving your enquires soon'and hope to have the opportunity to work together with you in the future. Welcome to check out our company.

Related Products

Hot Products

  • 1560nm Picosecond Fiber Laser

    1560nm Picosecond Fiber Laser

    The 1560nm picosecond fiber laser uses high-performance rare earth optical fiber as the working medium, combined with high-precision dispersion compensation technology and active servo system to achieve stable output of 1560nm band picosecond pulse laser. It can start automatically with one button, work stably for a long time and is maintenance-free. It has the characteristics of extremely narrow laser pulse and high pulse peak power. It has wide applications in optical frequency comb, supercontinuum, terahertz THz and other fields.
  • 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.
  • 650nm 785nm 850nm 10mW FP laser light source

    650nm 785nm 850nm 10mW FP laser light source

    The 650nm 785nm 850nm 10mW FP laser light source, single-mode fiber output, adjustable power, professionally designed high-precision, high-stability current drive control board to ensure laser safety and stability, low noise operation, low cost, high cost performance, small size Compact and easy to integrate, it is widely used in scientific research, communication, medical treatment, spectral analysis, bioengineering and other fields.
  • 1512nm 10mW DFB 14PIN Butterfly Laser For NH3 Sensing

    1512nm 10mW DFB 14PIN Butterfly Laser For NH3 Sensing

    The 1512nm 10mW DFB 14PIN Butterfly Laser For NH3 Sensing contains thermoelectric cooler (TEC), thermistor, monitor photodiode,optical isolator to secure high quality laser performance. This laser diode has been designed mainly for ammonia sensing in emissions control applications. Excellent tunability makes this laser suitable for many specialised applications in harsh environments.
  • 50um InGaAs Avalanche Photodiode Chip

    50um InGaAs Avalanche Photodiode Chip

    50um InGaAs Avalanche Photodiode Chip is photodiode with internal gain produced by the application of a reverse voltage. They have a higher signal-to-noise ratio (SNR) than photodiodes, as well as fast time response, low dark current, and high sensitivity. Spectral response range is typically within 900 - 1650nm.
  • 1524-1572nm C-band ASE Broadband Light Source

    1524-1572nm C-band ASE Broadband Light Source

    The 1524-1572nm C-band ASE broadband light source is an extension of the wavelength range of the C band ASE broadband light source, covering the wavelength range of 1524-1572nm (frequency 190.65~196.675THz), with a spectral flatness better than 2.5dB.
  • Related Blog
  • Reviews

  • Wavelength Division Multiplexing

    Wavelength division multiplexing refers to a technology in which signals of different wavelengths are transmitted together and separated again. At most, it is used in optical fiber communication to transmit data in multiple channels with slightly different wavelengths. Using this method can greatly improve the transmission capacity of the optical fiber link, and the use efficiency can be improved by combining active devices such as optical fiber amplifiers. In addition to applications in telecommunications, wavelength division multiplexing can also be applied to the case where a single fiber controls multiple fiber optic sensors.

  • The development and application of femtosecond laser technology

    Since Maman first obtained laser pulse output in 1960, the process of human compression of laser pulse width can be roughly divided into three stages: Q-switching technology stage, mode-locking technology stage, and chirped pulse amplification technology stage. Chirped pulse amplification (CPA) is a new technology developed to overcome the self-focusing effect generated by solid-state laser materials during femtosecond laser amplification. It first provides ultra-short pulses generated by mode-locked lasers. "Positive chirp", expand the pulse width to picoseconds or even nanoseconds for amplification, and then use the chirp compensation (negative chirp) method to compress the pulse width after obtaining sufficient energy amplification. The development of femtosecond lasers is of great significance.

  • Main classification of sensors

  • Short wavelength narrow linewidth fiber laser

    For spectral synthesis technology, increasing the number of synthesized laser sub-beams is one of the important ways to increase the synthesis power. Expanding the spectral range of fiber lasers will help increase the number of spectral synthesis laser sub-beams and increase the spectral synthesis power [44-45]. At present, the commonly used spectrum synthesis range is 1050~1072 nm. Further expanding the wavelength range of narrow linewidth fiber lasers to 1030 nm is of great significance to the spectrum synthesis technology. Therefore, many research institutions have focused on short wavelength (wavelength less than 1040 nm) narrow line Wide fiber lasers were studied. This paper mainly studies the 1030 nm fiber laser, and extends the wavelength range of the spectrally synthesized laser sub-beam to 1030 nm.

  • ASE broadband light source principle and application

    ASE broadband light source works based on the principle of amplified spontaneous emission. When pump light is injected into doped optical fiber (such as erbium-doped optical fiber), the number of particles is inverted. Particles at high energy levels spontaneously transition back to low energy levels, releasing photons, which propagate in the optical fiber and induce more stimulated radiation, thereby achieving light amplification.

  • The application of the fiber optic modules

    We will be dedicated to provide customers with better quality products and faster response. And to help our customers create greater value and grow with customers.(China fiber optic modules)

Send Inquiry

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