1064nm Nd:YAG q-switched nanosecond/picosecond laser

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1064nm laser is one of the most common laser among ULaser’s products of solid state laser. Unlike other lasers, 1064nm laser beam is directly emitted from the Nd:YAG crystal. Q-switched crystal helps our laser to emit picosecond output light beam. Either the one with single longitudinal mode or the one with fundamental mode can be chosen in ULaser.

ULaser provides absolute high quality 1064 nm laser. Our 1064nm laser contains high average power, up to 100mW. And it has high pulse repetition frequency, up to 50kHz. At the same time, our 1064nm laser has smaller size and lower power consumption by microchip laser technology.

Our 1064nm laser can be used in most military, civil and scientific research fields. In industry, it can be used in micromachining. In cosmetology, it can be used in picosecond laser tattoo removal machine. Besides, it can also be used in laser ultrasound, laser induced breakdown spectroscopy, etc.

Main features	Application
Pulse energy up to 200 μJ Pulse width up to 300ps Beam mode is TEM₀₀ Fully sealed design, high reliability Maximum repetition rate up to 50kHz	Lidar Seed source Laser processing Laser-induced fluorescence Nonlinear optical measurement

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Model	UL1064-1kHz-120μJ-MA016	UL1064-2.5kHz-120μJ-MA017	UL1064-1kHz-200μJ-MA018	UL1064-2.5kHz-200μJ-MA019	UL1064-5kHz-60μJ-MA020	UL1064-10kHz-40μJ-MA021	UL1064-20kHz-20μJ-MA022
Wavelength(nm)	1064
Repetition frequency (KHz)	1	2.5	1*	2.5*	5	10	20
Average power(mW)	120	300	200	500	300	400	400
Output energy(uJ)	120	120	200	200	60	40	20
Pulse width (ps)	2000				1500
Power stability (8h)	±3%
Beam mode	TEM₀₀
Full-angle divergence angle Typ. (Mrad) level @ 1/e²	8	≤3	≤3	≤3	8
Vertical @ 1 / e²	8	≤3	≤3	≤3	8
Polarization characteristics	＞100:1
Power input	100-240 VAC,50/60Hz
Control interface	RS232、USB
System power consumption（W）	≤35	≤20		≤25	≤35	≤35	≤35
Power supply size (W × H × L, mm)	168×88×140	90×32.6×120	90×32.6×120	90×32.6×120	168×88×140
Laser head size (W × H × L, mm)	45×30×120
Working temperature (℃)	15-35
Storage temperature (℃)	0-60
1.*The light outlet of the laser head is side outlet. See the mechanical dimension drawing for details
2.Customized internal beam expansion function to meet the requirements of small divergence angle (less than 2mrad)
3. MA017, MA018, and MA019 are specially designed for miniaturized weather radar applications. They are small in size, low in power consumption, and can be used in high altitudes, large temperature differences, and other subserve environments. This series accepts dual wavelength laser customization, such as 1064nm&532nm, 1064nm&355nm, or others.
1064nm MA Microchip laser system PDF

Model	UL1064-1kHz-100μJ-MC010	UL1064-5kHz-60μJ-MC011	UL1064-10kHz-30μJ-MC012
Wavelength(nm)	1064
Repetition frequency (KHz)	1	5	10
Average power(mW)	100	300	300
Output energy(μJ)	100	60	30
Pulse width (ps)	750
Power stability (8h)	±3%
Beam mode	TEM₀₀
Full-angle divergence angle Typ. (Mrad) level @ 1/e2	8	12
Vertical @ 1 / e2	8	12
Polarization characteristics	＞100:1
System power consumption（W）	≤25	≤20	≤30
Power input	100-240 VAC,50/60Hz
Control interface	RS232、USB		#colspan#
Power supply size (W × H × L, mm)	168×88×140
Laser head size (W × H × L, mm)	45×30×120
Working temperature (℃)	15-35
Storage temperature (℃)	0-60
1064nm MC Microchip laser system PDF

Model	UL1064-0.1kHz-100μJ-MD004
Wavelength(nm)	1064
Repetition frequency (KHz)	0.1
Average power(mW)	10
Output energy(uJ)	100
Pulse width (ps)	350
Power stability (8h)	±3%
Beam mode	TEM₀₀
Full-angle divergence angle Typ. (Mrad) level @ 1/e²	12
Vertical @ 1 / e²	12
Polarization characteristics	＞100:1
System power consumption（W）	≤25
Power input	100-240 VAC,50/60Hz
Control interface	RS232、USB
Power supply size (W × H × L, mm)	168×88×140
Laser head size (W × H × L, mm)	45×30×120
Working temperature (℃)	15-35
Storage temperature (℃)	0-60
1064nm MD Microchip laser system PDF

Model	UL1064-2.5kHz-600μJ-ME004	UL1064-5kHz-400μJ-ME005	UL1064-7kHz-280μJ-ME006
Wavelength (nm)	1064
Repetition frequency (KHz)	2.5	5	7
Average power (mW)	1500	2000	2000
Output energy (μJ)	600	400	280
Pulse width (ns)	3.5	6	8
Power stability (8h)	±3%
Beam mode	TEM₀₀
Collimating spot diameter (mm)	≈9
Full divergence Angle Typ.(@1/e, mrad)	≤1
Polarization characteristics	＞100:1
Power input	12V，>180W
External trigger control	Gated, 5V TIL, high level enabled
Laser head size (WxHxL.mm)	28x25x88
Operating temperature (℃, need to provide air cooling heat dissipation)	15-35
Storage temperature (℃)	-40~65
1064nm ME Microchip laser system PDF

Model	UL1064-20kHz-3μJ-MH003	UL1064-100kHz-1μJ-MH004
Wavelength(nm)	1064
Repetition frequency (KHz)	20	100
Average power(mW)	60	100
Output energy(uJ)	3	1
Pulse width (ps)	350	500
Power stability (8h)	±3%
Beam mode	TEM₀₀
Full-angle divergence angle Typ. (Mrad) level @ 1/e2	25	30
Vertical @ 1 / e2	25	30
Polarization characteristics	＞100:1
System power consumption（W）	≤35	≤40
Power input	100-240 VAC,50/60Hz
Control interface	RS232、USB
Power supply size (W × H × L, mm)	168×88×140
Laser head size (W × H × L, mm)	45×33×120
Working temperature (℃)	15-35
Storage temperature (℃)	0-60
1. Other frequencies can be customized
1064nm MH Microchip laser system PDF

Model	UL1064-200Hz-60/50μJ-MO004
Wavelength(nm)	1064
Repetition frequency (Hz)	1-200
Maximum output energy of space beam (μJ)	60
Fiber Coupling Maximum Output Energy (μJ)	50
Pulse width (ns)	≤1
Energy Stability(rms)	≤3%
Energy Regulation Step Accuracy	≤2%
Beam mode (spatial beam output)	TEM₀₀
Full-angle divergence angle Typ. (Mrad) level @ 1/e2	≤2
Full-angle divergence angle Typ. (Mrad)Vertical @ 1 / e2	≤2
Polarization characteristics	≥100:1
Fiber parameters (fiber coupled output optional)	200μm/0.22NA
Power input	24V DC
Modulation input	TTL0-5V,SMB connector
Control interface	RS232
System Peak Power Consumption (W)	＜20
System Average Power Consumption (W)	＜10
Laser head size (W × H × L, mm)	82×102.8×240 (space)/ 82x79x250(optical fiber)
Working temperature (℃)	10-40
Storage temperature (℃)	0-60
1. The supported operating frequency is 16~200Hz in continuous mode and burst mode.
2. Fiber core diameter: 200μm.
3. The power supply adapter is shipped with matching power supply, which can support 90~260VAC power supply input.
1064nm MO Microchip laser system PDF

AMRL-001 Series Solid state laser for atmospheric particulate matter lidar

Parameter	Data
Model	UL-500μJ-5KHz-AMRL001
Energy@1064nm	≥500μJ@25℃
Energy@532nm^a	≥500μJ@25℃
Average output power	2.5 W @ 5 KHz
Power stability	≤ 2 % @ 25℃ @ 8h
Pulse width	<15ns, Type.13ns
Beam quality M²	<1.3
Repetition frequency	3-7KHz Adjustable Default 5KHz
Full angle of beam divergence	<3mrad <150μrad @ Full angle @ Beam expansion ×15
Spot diameter	<600μm
Polarization ratio	>100:1
Beam directivity	≤50μrad @ 25℃
Synchronous output signal	3.3V~5V @ 50Ω TTL signal，Width≥1μs，Rising edge≤50ns，Jitter<2ns
Communication interface	4PM terminal ，RS232 communication protocol
Cooling mode	TEC refrigeration, radiator and fan
Power supply	24V DC
Laser Head Size^b	250mm×240mm×105mm
Power waste^c	Normal temperature：90W； High temperature：200W
Total weight	7Kg
Laser lifetime	> 8500h
Working temperature^d	-10~+60℃
Storage temperature	-20~+70℃
Relative humidity	0~80%
a. The output index and shape of 1064nm and 532nm lasers are the same, and they are two lasers of the same model.
b. This laser is convenient for customers. Except for the four laser modules (laser head module, LD pump source module, Q-switch module and circuit control module), it cannot be changed. The layout of other parts of the laser can be adjusted according to customer requirements.
c. The laser cooling fan is adaptive. The power consumption of low-speed operation at room temperature is about 90W, and that of high-speed operation at high temperature is about 200W.
d. Under high temperature, the laser can work normally, but the output energy will be reduced.

AMRL-002 series Active Q-switched sub nanosecond lasers for atmospheric detection radar

Parameter	Data
Model	UL-1.2mJ-10KHz-AMRL002
Wavelength	1064nm, 532nm coaxial output
Energy	＞1.2mJ@1064nm；＞0.6mJ@532nm;
Fundamental frequency light width	＜0.12nm
Laser energy stability（ RMS@2h )	≤ 2.5 % @ 25℃ @ 532nm
Pulse width	≤1.5ns@10kHz
Beam quality M²	<1.8
Repetition frequency	10KHz
Full angle of beam divergence	5~6 mrad
Polarization ratio	>100:1
Beam directivity	≤±30μrad
Q-switch triggered synchronous output	Positive Pulse 3~ 5V@50 ΩTTL Rise Edge Time < 25ns Pulse Width Range 200ns~10μs Synchronization trigger signal and output laser jitter <3.0ns
Control mode	Upper computer and communication command control
Communication interface	RS232 communication protocol
Cooling mode	Water-cooling
Power supply	28±5VDC
The output energy is adjustable in grades	It is divided into two files and can be set online by software. High grade works at full power. Low grade for light path debugging. Low energy is about 1% of high energy. High and low laser beam offset angle is less than 0.05 mrad.
Laser system components	Laser Head+Power Supply+Water Cooler
Laser lifetime	> 8500h
Working temperature	0~+40℃
Storage temperature	-10~+50℃，Low temperature storage requires cooling water removal
Relative humidity	0~80%
Vibration requirements	Vibration of highway transportation

AMRL004 series frequency stabilized phase-locked laser for wind lidar

Parameter	Data
Model	UL-50mW-1064nm-AMRL004
Wavelength	1064.4nm
Output light power	＞50mW
Working mode	CW
Line width	＜2MHz
Frequency stability (RMS)	< 1MHz @ 24 h @ 3℃ Temperature difference
Power stability (RMS)	≤1%@ 25℃
Repeated locking error	＜100MHz
Relative intensity noise	＜-140@10MHz
Frequency stabilization range	Iodine molecule 1104-1110 absorption line
Lock position	Midpoint of absorption line
Frequency shift range (optional)	±5GHz
Lock-in accuracy (optional)	2MHz
Output mode	Optical fiber output, FC/APC
Communication interface	RS422 communication protocol
Power supply	220V AC
Size	3.5u chassis
Wrking temperature	15～30℃
Storage temperature	0～50℃
Relative humidity	0～60%

UL-AQNL-DW-1200 active Q-switched subnanosecond laser

Model		UL-AQNL-DW-1200
Optical Parameters	Wavelength	1064nm, 532nm coaxial output
	Pulse energy	＞1.2mJ@1064nm；＞0.6mJ@532nm;
	Fundamental frequency light width	＜0.12nm
	Pulse width	≤1.5ns@10kHz
	Repetition frequency	10kHz
	Beam quality M²	＜2
	Divergence angle	5~6mrad
	Laser beam pointing jitter	＜0.05mrad (when the laser output is high-grade)
	Degree of polarization	＞100:1
	Laser energy stability (RMS@2h)	< 2.5%@room temperature@532nm
Function parameter	Communication Interface	RS232
	Control method	Host computer and communication command control
	trigger method	Internal/external trigger, external trigger 3~5V@50ΩTTL level, external trigger input pulse width range 200ns~10μs
	Q-switched synchronous trigger pulse signal output	Positive pulse, 3~5V@50ΩTTL level, rising edge time<25ns, pulse width range 200ns~10μs, synchronous trigger signal and output laser jitter
	The output energy can be adjusted in different stages	There are two gears, which can be set online through software. The high gear is for full power operation, and the low gear is used for optical path debugging. The output energy of the low gear is about 1% of the output energy of the high gear. The laser beam deviation angle of the high and low gears is <0.05mrad
	Cooling method	Water cooling
	Power supply	28±5VDC
	Laser lifetime (H)	> 1 billion times
	Laser layout	Laser head + power supply + water cooler
Environmental requirements	Operating temperature	0～40℃
	Storage temperature	-10～50℃, store at low temperature and drain clean water
	Relative humidity	0～80%
	Vibration requirements	Random vibration of the whole system (with damping pad), road spectrum (GB/T4857.23)

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