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  • MENHIR-1030系列 GHz 飞秒激光器

  • MENHIR-1030系列 GHz 飞秒激光器

    Menhir-Photonics的MENHIR-1030 系列高性能飞秒激光器依托成熟技术平台打造,兼具高稳定性与高可靠性,重复频率覆盖MHz-GHz,适用于各类高端应用场景

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Menhir-Photonics的MENHIR-1030 系列高性能飞秒激光器依托成熟技术平台打造,兼具高稳定性与高可靠性,重复频率覆盖MHz-GHz,适用于各类高端应用场景

核心特点

  • 超低噪声

  • 全密封激光腔体

  • 一体化集成系统

  • 可按需定制MENHIR-1030系列,全面适配工业及科研各类应用场景

核心参数

  • 重复频率:最高可达 2.5 GHz

  • 搭载重复频率载波包络偏移频率调节组件

  • 优质孤子脉冲:脉宽小于 250 fs

典型应用

  • 放大器种子源

  • 非线性光学

  • 太赫兹产生

  • 时间信号分发

  • 光频梳

  • 光谱分析

  • 超低噪声微波产生

参数|型号

MENHIR-1030 at 160 MHz

MENHIR-1030 at 1 GHz

重复频率 frep160 MHz
1 GHz
输出光功率>100 mW>30 mW
中心波长 λ01025 – 1054 nm1025 – 1054 nm
脉冲类型纯净孤子脉冲 Clean soliton pulse纯净孤子脉冲 Clean soliton pulse
光谱宽度>5 nm>5 nm
脉冲宽度<250 fs<300 fs
光谱形态双曲正割平方(Sech2-shaped)型光谱双曲正割平方(Sech²-shaped)型光谱
光束特性TEM₀₀ M² < 1.1TEM₀₀, M² < 1.05

孤子脉冲

高斯光束

纯净的光谱

纯净的频谱


MENHIR-1030系列 GHz 飞秒激光器

Performance_MENHIR-1030-160MHz

Performance_MENHIR-1030-1GHz

一、White Papers 科学白皮书

Self-Referenced Optical Frequency Comb[EB/OL]. Menhir Photonics, [2026].

Optical Frequency Comb Stabilization[EB/OL]. Menhir Photonics, [2026].

Timing Distribution Based on MENHIR-1550[EB/OL]. Menhir Photonics, [2026].

Industrial-Grade Optical Frequency Comb Technology[EB/OL]. Menhir Photonics, [2026].

二、Application Notes & Datasheets 应用笔记、产品手册

  1. Coherent Optical Comb Characterization: AppNote7[EB/OL]. Menhir Photonics & APEX Technologies, [2026].

  2. MENHIR 1550 Series (250 MHz) Datasheet[EB/OL]. Menhir Photonics, [2026].

  3. MENHIR 1550 Series (1.00 GHz) Datasheet[EB/OL]. Menhir Photonics, [2026].

  4. MENHIR 1550 Series (2.5 GHz) Datasheet[EB/OL]. Menhir Photonics, [2026].

  5. Optical Frequency Comb Application Note[EB/OL]. Menhir Photonics, [2026].

  6. Photonic ADC Application Note[EB/OL]. Menhir Photonics, [2026].

  7. RF Generation Application Note[EB/OL]. Menhir Photonics, [2026].

  8. Timing Distribution Application Note[EB/OL]. Menhir Photonics, [2026].

三、Journal Articles 期刊论文

3.1 Microwave Generation 微波生成方向

  1. Amaro-Losada L, et al. Photonic Sampler for mmWave Signals up to 70 GHz Using a 1-GHz MLL and a Silicon PIC[J]. IEEE Photonics Technology Letters, 2026.

  2. Şafak K, et al. Photonically referenced extremely stable oscillator[J]. Optics Letters, 2024, 49.

  3. Boerma, et al. Microwave Photonic PS-Pulse and 140 GHz RF Comb Generator[J]. Journal of Lightwave Technology, 2023.

  4. Surendranath-Shroff V, et al. Ultra-Low Phase Noise Frequency Synthesis Using Electro-Optic Detector-Based Comb-Microwave Synchronization[J]. IEEE Xplore, 2025.

  5. Ayissi Manga A, et al. Experimental Validation of an RF-Over-Fiber Reference Signal for Frequency Conversion in Large Multi-Tile Electronically Scanned Antennas[J]. Microwave and Optical Technology Letters, 2025.

3.2 Optical Frequency Comb & Spectroscopy 光频梳与光谱方向

  1. 1-GHz dual-comb spectrometer with high mutual coherence for fast and broadband measurements[J]. [Journal Name], [Year].

  2. Direct frequency comb spectroscopy of HCN to evaluate line lists[J]. [Journal Name], [Year].

  3. Broadband 1-GHz mid-infrared frequency comb[J]. [Journal Name], [Year].

  4. Low-noise transfer of the spectral purity of an optical comb line using a feedforward scheme[J]. [Journal Name], [Year].

  5. Squeezed dual-comb spectroscopy[J]. [Journal Name], [Year].

四、Conference Papers 会议论文

  1. Gläsel J, et al. Microwave Photonic RF Comb Generator for D- and J-Band[C]//International Topical Meeting on Microwave Photonics, 2024.

  2. Şafak K, et al. Optical Frequency and Timing Distribution System for ESA Deep Space Tracking Stations[C]//2023 EFTF/IFCS, 2023.

五、Preprints 预印本

  1. Nakamura T, et al. Ultralow noise microwaves with free-running frequency combs and electrical feedforward[R]. arXiv, 2025.