2.0 μm High-Reliability Single-Frequency Seed Source

The 2.0 μm DBR (Distributed Bragg Reflector) single-frequency seed source is a high-performance laser device designed for applications requiring high coherence and low noise. It is widely used in quantum information, high-resolution spectroscopy, LiDAR, and nonlinear frequency conversion. Its core advantages include kHz-level narrow linewidth, wide-range mode-hop-free tuning, high-power amplification compatibility, and a compact, environmentally robust design.

Product Features

kHz-Level Narrow Linewidth
Mode-Hop-Free Wide Tuning
High Power Stability
Compact Design

Typical Applications

Gas Detection
Quantum Computing
Quantum Precision Measurement

Category: Single Frequency Fiber Seed Lasers

Specifications

Technical Parameter	Unit	Technical Specification
Technical Parameter	Unit	Min	Typical	Max
Center Wavelength	nm		1950
Output Mode	/	Single-mode, Continuous Wave
Output Power	mW	10
Linewidth	kHz		<30
Optical SNR	dB		>60
Output Power Stability (P-P)	%		<=1
Output Power Adjustment	%	10 – 100
Polarization Type	/	Linear Polarization
Polarization Extinction Ratio	dB		>23
Operating Temperature	°C	-10		45
Storage Temperature	°C	-40		70
Output Fiber Type	/	PM1950 / SM1950
Output Fiber Length	m	0.6, Customizable
Output Fiber Connector	/	FC/APC, Optional
Dimensions	mm	175 (L) × 140 (W) × 25 (H)

Related products

2.0 μm Industrial Single-Frequency Seed Source
The 2.0 μm industrial single-frequency seed source is a core device designed for high-coherence, low-noise applications. Its key advantages include kHz-level narrow linewidth, wide mode-hop-free tuning, high-power amplification compatibility, and strong environmental adaptability, making it an ideal light source for quantum technology, gas sensing, and high-power laser systems.
Product Features
Stable Power
Reliable Performance
Linearly Polarized
All-Fiber Structure
Typical Applications
Medical Applications
Mid-Infrared Pumping
LiDAR
1.0 μm Point Light Source
The 1.0 μm point light source is a single-mode continuous-output fiber laser. It features a Fabry–Perot cavity design and employs single-clad fiber pumping technology to achieve high-performance laser output, with an output power of up to 200 mW. It also offers nearly diffraction-limited beam quality and can be widely used in scientific research, experimental teaching, and device testing and measurement.
Product Features
High Beam Quality
Stable Power
Polarization-Maintaining Single-Mode Output
Typical Applications
Scientific Research
Experimental Teaching
Device Testing and Measurement
1.5 μm Laser Phase-Modulated Fiber Seed Source
The core advantage of the 1.5 μm laser phase-modulated fiber seed source lies in its adjustable phase. Combined with ultra-low phase noise, high power stability, and an all-polarization-maintaining, interference-resistant design, it makes an ideal light source for cutting-edge fields such as quantum technology and precision sensing.
Product Features
Low Phase Noise
High Power Stability
All-Polarization-Maintaining Optical Path
Adjustable Phase
Typical Applications
Optical Quantum Communication
Distributed Acoustic Sensing (DAS)
LiDAR
Femtosecond Micromachining
2.0 μm Point Light Source
The 2.0 μm laser point light source is a miniaturized laser device designed for high-precision spatial positioning, eye safety, and strong environmental adaptability. Its core advantages include eye safety, micrometer-level spot positioning, high peak power, automotive-grade robustness, and multi-wavelength customization, making it a key light source for next-generation LiDAR, precision medical applications, and industrial processing.
Product Features
High Beam Quality
Stable Power
Polarization-Maintaining Single-Mode Output
Typical Applications
Scientific Research
Experimental Teaching
Device Testing and Measurement