In the ever-evolving world of photonics, the ability to precisely control and manipulate light is the Holy Grail for researchers, engineers, and innovators alike. Enter the 1064nm Fiber AOM Series from SMART SCI&TECH, a cutting-edge solution that harnesses the power of the acousto-optic effect to unlock a new era of light-based technologies.
The 1064nm Fiber AOM Series is a specialized optical fiber acousto-optic modulator (AOM) that leverages the acousto-optic effect to modulate or shift the frequency of an optical signal. By converting electrical signals into ultrasonic vibrations, these modulators can precisely control the amplitude, phase, and frequency of light, enabling a wide range of applications across various industries.
Characteristics of the 1064nm Fiber AOM Series
The 1064nm Fiber AOM Series from SMART SCI&TECH is designed to deliver exceptional performance and reliability, making it a premier choice for a variety of applications. Some of the key characteristics of this innovative product include:
Short response time: With rise and fall times as low as 7 nanoseconds, the 1064nm Fiber AOM Series offers rapid modulation capabilities, enabling high-speed control of optical signals.
Low insertion loss: Boasting insertion losses as low as 2.5 dB, these modulators ensure minimal signal degradation, preserving the integrity of your optical signals.
High extinction ratio: The 1064nm Fiber AOM Series delivers an impressive on-off extinction ratio of up to 50 dB, providing superior contrast and control over your optical signals.
High-temperature stability and reliability: Designed with an all-metal structure, these modulators offer excellent temperature stability and reliability, ensuring consistent performance even in challenging environments.
Compact size: The 1064nm Fiber AOM Series features a small, space-saving design, making it ideal for seamless integration into a wide range of optical systems and devices.
Ordering Information for the 1064nm Fiber AOM Series
The 1064nm Fiber AOM Series from SMART SCI&TECH offers a range of models to meet the diverse needs of our customers. The table below outlines the key ordering information and specifications for each model in the series:
Applications of the 1064nm Fiber AOM Series
The versatility of the 1064nm aom modulator from SMART SCI&TECH extends across a wide range of applications, empowering users to unlock the full potential of light-based technologies. Some of the key applications include:
Q-switched fiber lasers: The high-speed modulation capabilities of the 1064nm Fiber AOM Series make it an ideal choice for Q-switching fiber lasers, enabling the generation of high-energy, pulsed laser output.
Laser Doppler coherent applications: These modulators can be used to introduce a controlled frequency shift in optical signals, enabling Doppler-based measurements and velocity sensing applications.
Ultrafast laser frequency reduction: The 1064nm Fiber AOM Series can be employed to reduce the frequency of ultrafast laser systems, allowing for more efficient signal processing and analysis.
Linear frequency modulation: The 1064nm Fiber AOM Series can be used to generate linear frequency modulation (chirp) signals, which are essential in applications such as radar and lidar systems.
Unlocking the Future of Photonics with the 1064nm Fiber AOM Series
The 1064nm Fiber AOM Series from SMART SCI&TECH is a testament to the company’s commitment to pushing the boundaries of photonics technology. By harnessing the power of the acousto-optic effect, these modulators enable precise control and manipulation of light, unlocking a world of possibilities for researchers, engineers, and innovators across a wide range of industries.
Whether you’re working on the development of advanced laser systems, exploring new frontiers in telecommunications, or advancing cutting-edge applications in fields like radar and lidar, the 1064nm Fiber AOM Series is a versatile and reliable solution that can help you unlock the full potential of light-based technologies. By partnering with SMART SCI&TECH, you’ll gain access to a team of experts who are dedicated to helping you achieve your goals and push the limits of what’s possible in the world of photonics.