Nd:YAG lasers are optically pumped lasers using flash tube or laser diodes,when Nd:YAG crystals being used as gain medium,the typical output wavelength is 1064nm in the infrared.The wavelength of 1064nm is easily absorbed by metal surface and has high power density,enabling to produce narrower kerf.Because of these features,Nd:YAG crystals are widespread used in manufacturing.
Theotry
Gain medium - Nd:YAG
Nd:YAG crystals can absorb wavelength of 730nm—760nm and 790nm—820nm, Neodymium ions in glasses act as a laser gain medium.When Nd is being pumped into excitation,after a particular atomic transition it typically emitting 1064nm light. The highest output power can be 1000W in continuous mode,and the highest average power of output can be 400W, when pulse width is 10ns the energy can be 1GW/cm2 after being focused. Nd:YAG crystals being gain medium can make lasers have shorter output wavelength and provide more precise laser marking because of narrower kerf .
Q-switching
For pulsed mode there should add a Q-switching to improve the output power of lasers and compress width of laser pulse. The emitted light of Nd:YAG lasers is 1064nm which is within spectral region of V:YAG crystals,so V:YAG crystals are appropriate for Nd:YAG lasers. Cr4+:YAG is a crystal that is used for passive Q-switching in lasers, and it is also an new laser material. It is applied in the range of 900-1200 nm and 1350-1600 nm.
Reflective mirror——mirror with high-reflective film,which can reduce transmittance and allow light reflect many times in resonant cavity,so power of light will be improved.Mirror with paratially reflective film makes laser light output.
Pump source——Provide energy for gain medium of laser,the energy is absorbed in the medium so that producing excited states.Population inversion will be achieved when the number of particles in one excited state exceeds the number of particles in the ground state or a less-excited state.LD and flash lamp are usually applied in Nd:YAG lasers as pump source.
- Being easily absorbed by metal surface
- High power density
- Good welding quality
- Laser drilling
Nd:YAG crystals work as gain medium help lasers emit laser light with wavelength of 1064nm which is easily absorbed by metal surface with highly centered in time and space.Power density of laser light can reach by focusing system which enables laser light to drilling in various kinds of materials.Nd:YAG crystals have properties that are beneficial to manufacturing such as low threshold,good thermal conductivity. is easily absorbed by metal surface.Special optical system helps laser light hit the specified manufacturing point,make the laser light beams focused so that there are enough energy to drilling.
- Laser marking
A methods to leave marks on an object.The point where the laser touches the surface should be on the focal plane of the laser’s optical system.This point is typically small, Nd:YAG crystals work as gain medium help lasers emit laser light with wavelength of 1064nm,this wavelength enables produce light spot with a very small radius which is appropriate for laser marking.In order to get laser light with high peak power and narrow pulse width,usually using Cr:YAG crystals as Q-switch.Cr4+:YAG crystal is a kind of saturable absorber which enables absorb more energy within wavelength of 9μm~1.2μm,among these wavelengths,wavelength of 1.06μm is a main absorption band which is caused by energy level transition.
- Laser welding
Nd:YAG lasers are the most practical lasers in manufacturing because of high power density.The typical pulse frequency of Nd:YAG lasers reaches 0.05~50kHZ,average power reaches 20~50W. Nd:YAG lasers can weld various kinds of materials with thickness in the range of several nanometers to a few millimeters.
1064nm Laser
Microchip Laser System
1064nm 550ps Microchip Laser System of MCB Series
MCB series microchip laser products have very ideal narrow pulse width, but also can achieve high single pulse energy. The product is a passive Q-switched solid-state laser based on semiconductor pump. The laser pulse is pure and tailless, the single pulse energy is stable, and the beam quality is good. The integrated design of semiconductor pump module and laser crystal makes the compact laser head easy to install and integrate. The system supports internal and external triggering. This series of products include four wavelengths of 1064nm, 532nm, 355nm and 266nm. The full sealing module inside the laser head can be used by customers for secondary development and application. The superior product performance index makes its application range very wide, especially in laser measurement, which can meet many different kinds of measurement needs, and also has excellent performance in the application of laser seeds.
| Model | Repetition Frequency | Average Power | Output Energy | Pulse Width |
| CL1064-100Hz-170μJ-MCB010 | 0.1kHz | 17mW | 170uJ | 550ps |
| CL1064-100Hz-360μJ-MCB011 | 0.1kHz | 36mW | 181uJ | 550ps |
| CL1064-1KHz-130μJ-MCB012 | 1kHz | 130mW | 130uJ | 550ps |
- Pulse width up to 500ps
- Pulse energy up to 170μJ
- External pump source fiber pump pulse
- Charge energy up to 360μJ
- Maximum repetition frequency up to 1kHz
- Beam mode is TEM00
- Fully sealed design, high reliability
- Seed source
- Micromachining
- Biomedical Science
- Laser ultrasonic inspection
- Laser ionization mass spectrometry
- Non-linear optical measurement
- Laser-induced fluorescence
- Laser induced breakdown spectroscopy
1064nm 750ps Microchip Laser System of MCC Series
MCC series microchip laser products have very ideal narrow pulse width, but also can achieve high single pulse energy. The product is a passive Q-switched solid-state laser based on semiconductor pump. The laser pulse is pure and tailless, the single pulse energy is stable, and the beam quality is good. The integrated design of semiconductor pump module and laser crystal makes the compact laser head easy to install and integrate. The system supports internal and external triggering. This series of products include four wavelengths of 1064nm, 532nm, 355nm and 266nm. The full sealing module inside the laser head can be used by customers for secondary development and application. The superior product performance index makes its application range very wide, especially in laser measurement, which can meet many different kinds of measurement needs, and also has excellent performance in the application of laser seeds. We can also provide 1064nm and 532nm isolators.
| Model | Repetition Frequency | Average Power | Output Energy | Pulse Width |
| CL1064-100Hz-500μJ-MCC015 | 0.1kHz | 50mW | 500uJ | 750ps |
| CL1064-500Hz-300μJ-MCC016 | 0.5kHz | 150mW | 300uJ | 750ps |
| CL1064-1KHz-80μJ-MCC017 | 1kHz | 80mW | 80uJ | 750ps |
| CL1064-5KHz-70μJ-MCC018 | 5kHz | 350mW | 70uJ | 750ps |
| CL1064-10KHz-40μJ-MCC019 | 10kHz | 400mW | 40uJ | 750ps |
- Seed source
- Micromachining
- Laser ionization mass spectrometry
- Laser ultrasonic inspection
- Optical Parametric Oscillating Pump Source
- Biomedical Science
- Laser-induced fluorescence
- Laser induced breakdown spectroscopy
- Seed source
- Micromachining
- Biomedical Science
- Laser ultrasonic inspection
- Laser ionization mass spectrometry
- Non-linear optical measurement
- Laser-induced fluorescence
- Laser induced breakdown spectroscopy
1064nm 350ps Microchip Laser System of MCD Series
MCD series microchip laser is a passively Q-switched solid-state laser based on semiconductor pump. The laser pulse is pure and tailless, the single pulse energy is stable, and the beam quality is good. The integrated design of semiconductor pump module and laser crystal makes the compact laser head easy to install and integrate. The system supports internal and external triggering. This series of products include four wavelengths of 1064nm, 532nm, 355nm and 266nm. The full sealing module inside the laser head can be used by customers for secondary development and application. This series of lasers have great advantages in seed light, laser micromachining, laser measurement and other applications. We also provide 1064nm and 532nm isolators.
| Model | Repetition Frequency | Average Power | Output Energy | Pulse Width |
| CL1064-100Hz-150μJ-MCD013 | 0.1kHz | 15mW | 150uJ | 350ps |
| CL1064-100Hz-500μJ-MCD014 | 0.1kHz | 50mW | 500uJ | 350ps |
| CL1064-500Hz-130μJ-MCD015 | 0.5kHz | 65mW | 130uJ | 350ps |
| CL1064-1KHz-100μJ-MCD016 | 1kHz | 100mW | 100uJ | 350ps |
- Pulse width up to 300ps
- Pulse energy up to 150 μJ
- External pump source fiber pump pulse energy can reach 360μJ
- Maximum repetition frequency up to 1kHz
- Beam mode is TEM00
- Fully sealed design, high reliability
- Seed source
- Laser micromachining
- Non-linear optical measurement
- Laser-induced fluorescence
- Laser ionization mass spectrometry
- Fluorescence lifetime measurement
Single Frequency Laser
1064nm Single Frequency Pulsed Solid State Laser
| Model | Energy @1064nm (mJ) | Energy Stability | Pulse Width (ns) | Repeat Frequency (Hz) |
| CL1064-100mJ-SSL009 | 100 | <2% | <10 | 1-200 |
| CL1064-300mJ-SSL010 | 300 | <2.5% | <10 | 1-200 |
| CL1064-500mJ-SSL011 | 500 | <3% | <10 | 1-200 |
| CL1064-800mJ-SSL012 | 800 | <3% | <10 | 1-200 |
| CL1064-300mJ-SLL009 | 300 | <2% | <10 | 1-20 |
| CL1064-500mJ-SLL010 | 500 | <2.5% | <10 | 1-20 |
| CL1064-800mJ-SLL011 | 800 | <3% | <10 | 1-20 |
| CL1064-1000mJ-SLL012 | 1000 | <3% | <10 | 1-20 |
- Single-mode output, good beam quality
- Light pump output, high cost performance
- Reliable structure, permanent fixing technology
- Highly integrated system, easy to operate
- It is widely used in satellite laser ranging
- Doppler wind measurement
- underwater imaging, laser fine drilling
- laser shock strengthening
- nonlinear frequency conversion and other fields
Q-Switched Laser
1064nm Active Q-Switched Sub Nanosecond Laser
| Model | CL1064-6mJ-AQNL004 | CL1064-10mJ-AQNL005 | CL1064-20mJ-AQNL006 | |
| Optical Parameter | Energy @1064nm (mJ) | 6 | 10 | 20 |
| Energy Stability | <3% | <3% | <3% | |
| Repeat Frequency (KHz) | 1~10 | 1~5 | 1~5 | |
| Pulse Width (ns) | <1.5 | <1.5 | <1.5 | |
| Beam Quality M2 | <2 | <2 | <2.5 | |
| Divergence (full angle) (mrad) | <1 | <1 | <1 | |
| Spot diameter(1/e2)(mm) | ~2 | ~2 | ~4 | |
| Function Parameter | Control Interface | DB9,RS422 | DB9,RS422 | DB9,RS422 |
| Cooling Method | Water cooling | Water cooling | Water cooling | |
| Powered By | 220VAC/50Hz | 220VAC/50Hz | 220VAC/50Hz | |
| Environmental Requirement | Operating Temperature (℃) | 15-35 | 15-35 | 15-35 |
| Storage Temperature (℃) | -15-50 | -15-50 | -15-50 | |
| Humidity | 0-80% | 0-80% | 0-80% |
- Active Q
- Narrow pulse width and high peak power
- High stability and compact structure
- High beam quality
- Widely used in laser radar,
- point cloud imaging radar
- ranging, laser remote sensing
- photoelectric detection
- laser fine processing and other fields
1064nm Passive Q-Switched Sub Nanosecond Laser
| Model | CL1064-120μJ-PQNL007 | CL1064-240μJ-PQNL008 | CL1064-400μJ-PQNL009 | |
| Optical Parameter | Energy @1064nm (uJ) | >120 | >240 | >400 |
| Energy Stability | <3% | <3% | <3% | |
| Repeat Frequency (Hz) | 1~500 | 1~100 | 1~100 | |
| Pulse Width (ns) | <1.5 | <1.5 | <1.5 | |
| Function Parameter | Control Interface | DB9,RS422 | DB9,RS422 | DB9,RS422 |
| Cooling Method | Air-cooled | Air-cooled | Air-cooled | |
| Powered By | 220VAC/50Hz | 220VAC/50Hz | 220VAC/50Hz | |
| Output Power (W) | <50 | <80 | <100 | |
| Environmental Requirements | Operating Temperature (℃) | 15-40 | 15-40 | 15-40 |
| Storage Temperature (℃) | -5-60 | -5-60 | -5-60 | |
| Humidity | 0-80% | 0-80% | 0-80% | |
| Weight and Size | Laser Weight (Kg) | <10 | <12 | <15 |
| Laser Size (mm) | 441*117*96 | 480*120*96 | 520*120*96 |
- Structural design of passive Q-switched microchip
- Narrow pulse width, high peak power
- High stability and compact structure
- Integrated photodetector
- Widely used in laser radar
- point cloud imaging radar
- ranging, laser remote sensing
- photoelectric detection
- laser fine processing and other fields
