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1.0 μm Frequency-Stabilized Laser Seed Source
1.0 μm Frequency-Stabilized Laser Seed Source

1.0 μm Frequency-Stabilized Laser Seed Source

The 1.0 μm frequency-stabilized single-frequency fiber laser is designed for high-end applications such as precision interferometric imaging, ultra-long baseline measurement, and fiber sensing networks. It adopts narrow-linewidth single-frequency laser technology combined with a high-precision frequency stabilization control scheme, achieving extremely low frequency drift, excellent long-term coherence, and outstanding wavelength repeatability. It can significantly improve system signal-to-noise ratio and measurement resolution, suppress phase noise accumulation, and ensure stable output even during long-term operation and under harsh environmental conditions.

Product Features

Ultra-Stable Frequency Characteristics
Exceptional Coherence
Intelligent Frequency Stabilization System

Typical Applications

Precision Interferometric Imaging
Ultra-Long Baseline Measurement
Fiber Sensing Networks

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Technical Parameter Unit Technical Specification
Min Typical Max
Wavelength Range nm   980–1120  
Laser Mode /   Single Longitudinal Mode, Continuous Wave  
Output Power mW 50   100
Linewidth kHz   10  
Optical Signal-to-Noise Ratio dB   >60  
Relative Intensity Noise dB/Hz @ 1MHz < −120
Output Frequency Drift MHz @ 1h < 1
Output Power Adjustment % 10 / 100
Wavelength Tuning Range pm   600  
Polarization Type / Linear Polarization
Polarization Extinction Ratio dB   20  
Beam Quality / M² < 1.2
Operating Voltage VDC 12
Power Consumption W 20
Operating Temperature °C −10   45
Storage Temperature °C −40   70
Output Fiber Type / PM980 / HI-1060
Output Fiber Length m 0.6
Output Fiber Connector / FC/APC, Optional
Dimensions mm 175 (L) × 140 (W) × 25 (H)

The 1.0 μm frequency-stabilized single-frequency fiber laser is designed for high-end applications such as precision interferometric imaging, ultra-long baseline measurement, and fiber sensing networks. It adopts narrow-linewidth single-frequency laser technology combined with a high-precision frequency stabilization control scheme, achieving extremely low frequency drift, excellent long-term coherence, and outstanding wavelength repeatability. It can significantly improve system signal-to-noise ratio and measurement resolution, suppress phase noise accumulation, and ensure stable output even during long-term operation and under harsh environmental conditions.

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