Femtosecond & picosecond pulses for precise micromachining
High-Stability Pulsed Fiber Lasers for Precision Photonics
Pulsed fiber lasers are essential for photonic systems requiring precise temporal control, spectral stability, and high beam quality. Operating in picosecond and nanosecond regimes, they enable applications such as spectroscopy, LIDAR, precision micromachining, time-resolved analysis, and advanced sensing.
As system requirements increase, conventional laser architectures often reach limits in synchronization accuracy, environmental stability, spectral purity, and OEM integration – particularly when moving from laboratory setups to industrial or field environments.
Ampliconyx pulsed fiber laser platforms address these challenges with application-specific fiber-based architectures that integrate pulse generation, amplification, thermal management, and control electronics into compact, system-ready modules. This ensures stable performance, narrow spectral characteristics, and reliable operation under real-world conditions.
The portfolio spans the full pulsed laser chain – from seed sources to picosecond, nanosecond, and high-stability IR and green systems. Flexible synchronization and OEM-ready interfaces enable seamless integration into complex optical systems.
Across spectroscopy, LIDAR, micromachining, seeding, and time-resolved applications, Ampliconyx pulsed fiber lasers deliver the precision, stability, and robustness required for demanding photonic systems.
High-power narrow-linewidth seed laser for IR applications
Pulsed Picosecond Laser
AMPX-PW-LP-IR Series
Maintains Spectral Purity and Minimizes Nonlinear Effects
AMPX-PW-LP-IR is a high-power, narrow-linewidth pulsed fiber seed laser available in multiple IR wavelengths, designed to maintain spectral purity where conventional seed lasers broaden in linewidth as output power increases. Delivering ≤100 pm linewidth at up to 150 mW average power, with precise pulse durations and a polarization-maintaining single-mode output, it provides reliable seeding for high-gain fiber amplifiers and frequency-converted laser systems while helping to minimize nonlinear effects in downstream stages.
- Main Application Areas: Built for fiber laser seeding, frequency-doubling, science, and sensing, the Pulsed Picosecond Laser maintains a narrow linewidth of ≤100 pm even at output powers up to 150 mW — preventing the non-linear effects in downstream amplification stages where standard seed lasers lose spectral purity as power increases.
- Typical Industries: The go-to seed source for scientific research and laser manufacturing, this series combines a standardized multi-wavelength platform at 1030, 1040, and 1064 nm with user-selectable repetition rates (1 or 20 MHz), single-mode linearly polarized output (PER ≥ 15 dB), and full USB control — spectral purity, flexibility, and OEM integration in one package.
Technical Specs
PARAMETER |
VALUE |
|---|---|
Beam Quality: |
Single-mode with linear polarization (PER ≥ 15 dB) |
Repetition Rate: |
1 MHz or 20 MHz (user-selectable) |
Polarization Extinction Ratio: |
≥ 15 dB |
Output Fiber: |
PM980 standard; PM1060L on request |
Dimensions: |
470 × 270 × 123 mm |
Why Choose
Integration Requirements
FAQ
Related Info
Compact nanosecond laser with tunable pulse width
Pulsed Nanosecond Laser
AMPX-NsL
Complete Electronic and Optical Solution in One Compact Unit
AMPX-NsL is a compact nanosecond laser that overcomes the limitations of standard pulsed sources by integrating pulse generation, thermal management, and control electronics into a single module – delivering stable, tunable nanosecond pulses with full computer control and precise external synchronization.
- Main Application Areas: Designed for spectral analysis, LIDAR, and scientific research, the Pulsed Nanosecond Laser delivers the precise synchronization and pulse control these applications require — tunable pulse durations from 0.5 to 3.0 ns, repetition rates from single shot to 20 MHz, and a dedicated synchronization output for tight integration into complex optical systems, all in a 157 × 100 × 30 mm footprint.
- Typical Industries: Purpose-built for aerospace, industry, and science, the Pulsed Nanosecond Laser eliminates the multi-component complexity standard pulsed sources cannot avoid — by consolidating pulse generation, PID TEC control, and full computer/microcontroller interface for power, repetition rate, and temperature management onto a single board, powered by a single 12 VDC supply
Technical Specs
PARAMETER |
VALUE |
|---|---|
Output: |
Fiber coupled |
Dimensions: |
157 × 100 × 30 mm |
Why Choose
Integration Requirements
FAQ
Related Info
Portable laser for high-resolution analytical applications
Green Picosecond Laser
AMPX-PICO-532/100/1
Enabling Precise Raman and Time-Resolved Analysis Beyond the Lab
Where compact ultrafast laser sources fail due to spectral broadening, vibration sensitivity, and insufficient stability in real-world environments, the Green Picosecond Fiber Laser overcomes these limitations with its tapered double-clad fiber architecture, delivering up to 1.5 W average power and 1.5 µJ pulse energy at 50 or 100 ps pulse duration – in a compact, field-deployable platform designed for demanding analytical applications.
- Main Application Areas: Optimized for Raman spectroscopy, time-resolved analysis, and scientific research, the Green Picosecond Fiber Laser delivers where it matters most: patented tapered double-clad fiber technology keeps spectral bandwidth to typically 0.1 nm, while the full-fiber IR amplification scheme ensures vibration-insensitive, consistent performance beyond the lab.
- Typical Industries: From mining and biology to medicine and industrial chemical analysis, this laser brings high-resolution analytical performance into the field – its compact form factor (324 × 324 × 166 mm), low environmental sensitivity, and OEM-ready interfaces (Ethernet, RS232, USB) make it fast to deploy in both portable devices and industrial systems.
Technical Specs
PARAMETER |
VALUE |
|---|---|
Spectral Bandwidth: |
Typically 0.1 nm (@ 3 dB FWHM) |
Repetition Rate: |
Typically 1 MHz |
Beam Quality (M²): |
Typically 1 (max 1.2) |
State of Polarization: |
Linear |
Output Fiber: |
MM 105/125, NA = 0.15 |
Dimensions: |
324 × 324 × 166 mm |
Why Choose
Integration Requirements
FAQ
Related Info
Precision pulsed fiber laser for demanding applications
GS Picosecond Laser
AMPX-GSL-1040
Ultra-Precise Repetition Rate Control
AMPX-GSL-1040 is a highly stable, narrow-linewidth picosecond laser source with adjustable repetition rate, designed for precision seeding, spectroscopy, and sensing applications. Where standard seed lasers fall short on repetition rate control and synchronization flexibility, it delivers stable 50 ps pulse generation with 1 Hz step tunability up to 100 MHz, advanced internal and external triggering, and high beam quality (M² < 1.1) - enabling precise timing control in compact, OEM-ready systems. Main Application Areas: Purpose-built for seeding fiber laser amplifiers, spectroscopy, and sensing, the GS Picosecond Laser delivers the timing accuracy and spectral stability these applications demand – narrow linewidth with linear polarization (PER > 18 dB), M² < 1.1 beam quality, and a repetition rate tunable from single shot to 100 MHz in 1 Hz steps. Typical Industries: The go-to seed source for science, research, and industrial laser manufacturing, the GS Picosecond Laser closes the gaps standard seed lasers leave open – insufficient repetition rate granularity and synchronization flexibility – with dedicated SyncP/SyncN outputs, isolated USB and CAN interfaces, and all of this in a 120 × 110 × 38.5 mm, 0.75 kg package.
Technical Specs
PARAMETER |
VALUE |
|---|---|
Footprint: |
Ultra-compact 120 × 110 × 38.5 mm, 0.75 kg |
Power Consumption: |
36 W (DC 12V) |
Triggering: |
External and internal trigger inputs; dedicated trigger output for pulse synchronization |
Output Fiber: |
PM980 or single-mode fiber with FC/APC (others on request) |
Dimensions: |
120 × 110 × 38.5 mm |
Weight: |
0.75 kg |
Why Choose
Integration Requirements
FAQ
Related Info
Portable IR laser for high-resolution scientific and industrial applications
IR Picosecond Laser
High-Power Stability for Field-Deployable High-Resolution Spectroscopy
AMPX-PICO-1040 is a portable IR picosecond laser designed for high temporal and spectral resolution in scientific and industrial applications in the middle power range. Where miniaturized ultrafast sources suffer from spectral line broadening and vibration sensitivity, its patented tapered double-clad fiber architecture and full-fiber IR amplification scheme ensure stable operation and high spectral purity even in demanding environments – delivering up to 10 W average output power in a compact, field-ready platform.
- Main Application Areas: Optimized for Raman spectroscopy, time-resolved analysis, and scientific research, the IR Picosecond Fiber Laser delivers the resolution these applications demand – spectral bandwidth typically 0.1 nm, pulse durations of 50 or 100 ps, repetition rates up to 200 MHz – with patented tapered double-clad fiber technology ensuring minimal spectral line broadening in lab and field alike.
- Typical Industries: From mining and biology to medicine and industrial chemical analysis, this laser brings reliable high-resolution performance into the field – its full-fiber IR amplification scheme provides high vibration insensitivity, while the compact footprint (324 × 324 × 166 mm) and OEM-ready interfaces (Ethernet, RS232, USB) enable fast deployment in mobile and space-constrained systems.
Technical Specs
PARAMETER |
VALUE |
|---|---|
Beam Quality (M²) |
< 1.2 |
Repetition Rate: |
Up to 200 MHz |
State of Polarization: |
Linear |
Output: |
Freespace or fiber |
Dimensions: |
324 × 324 × 166 mm |
Why Choose
Integration Requirements
FAQ
Related Info
Contact Us / Questions?
Our experts are happy to advise you on material selection, core/cladding geometries, assembly, and application.
Phone
+49 228-979670
sales@ceramoptec.com
