GoPhotonics Curates Comprehensive Portfolio of Acousto-Optic Mode Lockers for Laser Pulse Generation

Posted  by GoPhotonics

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GoPhotonics features a wide range of Acousto-Optic Mode Lockers designed for stable laser pulse generation and precise intracavity mode control across industrial, scientific, and photonic laser systems. These devices enable controlled mode-locking through RF-driven acoustic interaction with optical beams, delivering consistent pulse formation, stable mode spacing, and reliable high-speed optical modulation for short-pulse laser operation. They support applications including femtosecond laser systems, photonic sampling, micromachining, optical parametric oscillators, nonlinear optics, corneal surgery, optical data storage, laser communication, and OEM laser system integration.

Available in fused silica and free space configurations, these acousto-optic mode lockers incorporate features such as compact active apertures, low insertion loss, high optical transmission, controlled RF operation, and stable diffraction performance for efficient laser cavity integration. Their robust designs make them well suited for scientific research, industrial laser processing, precision manufacturing, and advanced photonics applications requiring accurate mode-locking and dependable pulse generation.

12083-3-TE - Acousto-Optic Mode Locker for Laser Systems

The 12083-3-TE from Sintec Optronics is a fused silica acousto-optic mode locker designed for laser systems operating at 1064 nm wavelength, enabling stable mode-locking performance for controlled pulse generation. It operates at a defined RF frequency with high repetition rate capability, supporting consistent mode spacing for laser pulse formation. The device features a compact active aperture with an anti-reflection coated window, ensuring high optical transmission and stable beam interaction within the laser cavity. It is well suited for scientific and OEM laser system applications where reliable mode locking and efficient optical performance are required.

MLR-403BB10 - Acousto-Optic Mode Locker for Laser Systems

The MLR-403BB10 from IntraAction Corp. is an acousto-optic mode locker designed for laser systems operating in the 700 nm - 1100 nm wavelength range, enabling stable mode-locking performance for short-pulse laser generation. It supports RF operation up to high frequencies with controlled bandwidth, providing precise mode spacing and narrow mode bandwidth for consistent pulse formation. The device features a compact active aperture with a rhomboid window configuration and is engineered for low insertion loss and efficient diffraction performance. Built using fused silica material, it ensures stable optical transmission and reliable beam handling for high-quality laser operation. It is suitable for Ti:Sapphire laser system applications where controlled mode locking and stable pulse generation are required.

ML SERIES - Fused Silica Acousto-Optic Mode Lockers

The ML SERIES from IntraAction Corp. are fused silica acousto-optic mode lockers designed for laser systems operating at 1064 nm wavelength, enabling stable mode-locking for controlled pulse generation in infrared laser applications. They operate across a defined acoustic RF frequency range and provide consistent mode spacing for reliable intracavity modulation. The devices feature a compact active aperture that supports efficient optical interaction while maintaining low static insertion loss for stable transmission. They deliver moderate diffraction efficiency with controlled RF bandwidth and low RF drive requirements for efficient operation. These mode lockers are suitable for laser systems requiring precise optical modulation and stable pulse formation in scientific, industrial, and photonic applications.

FSML-50-20-BR-1064 - Acousto-Optic Mode Locker for Low Power Laser Application

The FSML-50-20-BR-1064 from Brimrose Corporation is a fused silica acousto-optic mode locker designed for laser systems operating at 1064 nm wavelength, enabling controlled mode-locking for low-power laser applications. It features a compact active aperture and operates with a defined RF carrier frequency, supporting stable modulation of intracavity laser light for consistent pulse generation. The device provides resonant and non-resonant diffraction behavior across different operating conditions, enabling flexible modulation performance for laser control systems. It supports variable frequency driver operation and delivers reliable RF-based light modulation suitable for precise intensity control. It is well suited for low-power lasers, RF modulation applications, analog light intensity control, and digital on/off switching in scientific and industrial laser systems.

FSML-125-30-BR1064 - Free Space Acousto-Optic Mode Locker for OEM Design Applications

The FSML-125-30-BR1064 from Laser 2000 is a free space acousto-optic mode locker designed for laser systems operating at 1064 nm wavelength, enabling stable mode-locking and precise optical modulation for OEM and photonic applications. It features a compact active aperture and operates with a defined RF carrier frequency, supporting efficient interaction between acoustic and optical waves for controlled laser pulse formation. The device delivers high optical transmission with resonant modulation capability and maintains low wavefront distortion for stable beam quality. It supports RF driver operation with a specified modulation rate and bandwidth control for reliable high-speed optical modulation. It is well suited for photonic sampling, femtosecond laser micromachining, corneal surgery, nonlinear optics, optical parametric oscillators, optical data storage, and OEM laser system design applications.

With their ability to deliver high sensitivity imaging, stable short-wave infrared detection, and accurate visualization beyond the visible spectrum, SWIR sensors featured on GoPhotonics address the growing demand for advanced imaging solutions in industrial, scientific, and inspection systems. By enabling reliable material differentiation, high-speed imaging, and precise defect detection, these sensors play a critical role in material sorting, non-destructive testing, semiconductor inspection, hyperspectral imaging, machine vision, optical metrology, surveillance, scientific research, and advanced manufacturing applications.

Click here to learn more about Acousto-Optic Devices.


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