LBO Crystals
High Damage Threshold: LBO crystals have the highest damage threshold of all commonly used inorganic nonlinear optical crystals. For example, under a 1053nm laser with a pulse duration of 1.3 ns, the damage threshold can reach 18.9 GW/cm² . This property makes LBO crystals particularly suitable for high-power laser systems, where they can withstand higher laser energies without damage.
Wide Transmission Band: LBO crystals have a very wide optical transmission range, from the deep ultraviolet band (about 160 nm) to the infrared band (about 2600 nm) . This feature enables LBO crystals to be suitable for a wide range of wavelength laser systems to meet the needs of different fields.
High Optical Uniformity: The LBO crystal has good optical uniformity and no internal envelope, which helps to ensure the quality of the laser beam and reduce beam distortion and defocus. Its optical uniformity can reach δN≈10-6/cm
Larger effective nonlinearity coefficients: The effective SHG coefficient of LBO crystals is larger, about three times that of KDP crystals . This means that under the same conditions, the LBO crystal is able to achieve frequency conversion more efficiently and output higher power lasers.
Wide angle reception with small walk-out angle: LBO crystals have a wide reception angle and a small walk-away angle, which makes it easier to achieve phase matching and improve frequency conversion efficiency in nonlinear optical processes.
Thermal Stability: LBO crystals are known for their excellent thermal stability, being able to withstand large amounts of heat when processing high-power lasers without causing any significant loss of performance.
Applications: High Power Laser Systems, Nonlinear Optical Processes, Ultraviolet and deep ultraviolet lasers, etc.
LBO (Lithium Triborate, LiB3O5) crystals are highly valued in the field of nonlinear optics due to their exceptional properties. They are particularly suitable for use in high-power laser systems, optical parametric oscillators (OPOs), optical parametric amplifiers (OPAs), and various nonlinear optical processes, making them an essential component in a wide range of applications.
Specifications:
Material | LBO crystals |
Clear Aperture | central 80% of the diameter |
Dimension | Maximum Dimension 70x70x20mm |
Transmitting Wavefront Distortion | better than λ/8 @ 633nm |
Flatness | λ/8 @ 633nm |
Perpendicularity | 15 arc minutes |
Parallelism | better than 20 arc seconds |
Quality Warranty Period | one year |
Damage Threshold (GW/cm^2) | >10 for 1064nm, TEM00, 10ns, 10HZ (with no coating) >1 for 1064nm, TEM00, 10ns, 10HZ (AR-coated) >0.5 for 532nm, TEM00, 10ns, 10HZ (AR-coated) |
Surface Quality | Surface Quality: 10/5 S/D (MIL-O-13830A) |
Features:
- High Damage Threshold: LBO crystals have the highest damage threshold of all commonly used inorganic nonlinear optical crystals. For example, under a 1053nm laser with a pulse duration of 1.3 ns, the damage threshold can reach 18.9 GW/cm² . This property makes LBO crystals particularly suitable for high-power laser systems, where they can withstand higher laser energies without damage.
- Wide Transmission Band: LBO crystals have a very wide optical transmission range, from the deep ultraviolet band (about 160 nm) to the infrared band (about 2600 nm) . This feature enables LBO crystals to be suitable for a wide range of wavelength laser systems to meet the needs of different fields.
- High Optical Uniformity: The LBO crystal has good optical uniformity and no internal envelope, which helps to ensure the quality of the laser beam and reduce beam distortion and defocus. Its optical uniformity can reach δN≈10-6/cm
- Larger effective nonlinearity coefficients: The effective SHG coefficient of LBO crystals is larger, about three times that of KDP crystals . This means that under the same conditions, the LBO crystal is able to achieve frequency conversion more efficiently and output higher power lasers.
- Wide angle reception with small walk-out angle: LBO crystals have a wide reception angle and a small walk-away angle, which makes it easier to achieve phase matching and improve frequency conversion efficiency in nonlinear optical processes.
- Thermal Stability: LBO crystals are known for their excellent thermal stability, being able to withstand large amounts of heat when processing high-power lasers without causing any significant loss of performance
Applications:
- High Power Laser Systems: LBO crystals are particularly suitable for high-power laser systems due to their high conversion efficiency and high damage threshold. For example, in the doubling and tripling of lasers such as Nd:YAG and Nd:YLF, LBO crystals are capable of outputting high-power laser beams.
- Nonlinear Optical Processes: LBO crystals perform well in nonlinear optical processes, such as optical parametric oscillators (OPOs) and optical parametric amplifiers (OPAs). Their wide transmission bands and efficient nonlinear effects make LBO crystals ideal for these applications.
- Ultraviolet and deep ultraviolet lasers: LBO crystals also have good transmittance and nonlinear effects in the ultraviolet and deep ultraviolet wavelengths, so they can be used to generate ultraviolet and deep ultraviolet lasers. These lasers have a wide range of applications in lithography, semiconductor detection, spectroscopy, and other fields. For example, LBO crystals have been used to achieve 193 nm deep ultraviolet lasers with an average power of 60 mW, high beam quality, and narrow linewidths.
Our LBO crystals are known for their exceptional optical properties, including high optical homogeneity, minimal stress striae, and a broad optical transmission range. They exhibit a high damage threshold, with a value of >10GW/cm² for 1064 nm, TEM00, 10 ns, and 10 Hz (uncoated), making them ideal for use in high-power laser environments.
The surface quality of our LBO crystals can be elevated to 10/5 Scratch/Dig, ensuring optimal performance and reliability in laser systems. This level of surface quality is crucial for maintaining the integrity of the laser beam and minimizing any potential degradation of the laser’s performance.
In summary, Kingwin Optics’ LBO crystals are high-quality nonlinear optical materials that excel in a wide range of laser and nonlinear optical applications. With their exceptional properties, customizability, and reliability, our LBO crystals are an excellent choice for researchers, engineers, and manufacturers seeking efficient and dependable nonlinear optical components.